Free windows java native compiler software for linux

JavaNativeCompiler (JNC) is a Java to native compiler. The project allows AOT (ahead of time) compilation of your Java applications. With JNC, you can create real standalone native binaries (.exe on Windows) which will no longer depend on a JRE.
This is especially useful when applications have to be deployed to end-users. All vexatious problems of deploying Java applications can be solved by compiling them to native. They will be:
- Easy to deploy
No JRE dependency. Most end-users dont know what they have installed.
No more problems on how to create an executable file out of a JAR or class file.
- Hard to decompile
Java can easily be decompiled. Native compilation will protect your source code.
- Run fast from the start
No more overhead for loading a JRE.
Enhancements:
- This release fixes a couple of problems with AWT/Swing and XML.
- It also once again contains a version for Linux.
- The compiler binary downloads are smaller.

Intel C++ Compiler application is a full fledged C/C++ compiler and debugger suite. Its aim is to provide outstanding performance for all Intel 32-bit and 64-bit processors, while not requiring the need for porting applications from other compilers.

It provides optimization technology, threaded application support, and features to take advantage of Hyper-Threading technology. It is substantially source and object code compatible with GNU C, providing fullest compatibility with GCC and G++ 3.x/4.x both in terms of code and of API. It is thereby also easy to integrate with existing development environments.

The Glasgow Haskell Compiler is a state-of-the-art, open source, compiler and interactive environment for the functional language Haskell.
Main features:
- GHC supports the entire Haskell 98 language plus a wide variety of extensions.
- GHC works on several platforms including Windows and most varieties of Unix, and several different processor architectures. There are detailed instructions for porting GHC to a new platform.
- GHC has extensive optimisation capabilities, including inter-module optimisation.
- GHC compiles Haskell code either by using an intermediate C compiler (GCC), or by generating native code on some platforms. The interactive environment compiles Haskell to bytecode, and supports execution of mixed bytecode/compiled programs.
- Profiling is supported, both by time/allocation and various kinds of heap profiling.
- GHC comes with a wide range of libraries.
GHC is heavily dependent on its users and contributors. Please come and join the mailing lists and send us your comments, suggestions, bug reports and contributions!
Enhancements:
- SMP support and impredicative polymorphism were added.
- The libraries were split into core and extra.
- Many more changes were made.

Scriptol to binary Compiler is a C++ native compiler.

Installation:

It is better to install Scriptol at root of a disk, for example:
c:scriptolc

Once the archive is extracted into the scriptolc directory, you have just to change to this directory to run the compiler.

To use the compiler at command line from any directory, you have to put the compiler into the path variable.

The setup script installs required file into sub-directories, or into the directory given as argument. Before to use the compiler, you have to read the licence, in the doc
directory: licence.html.

Usage:

Just type:
./solc mysource

Type "solc" only to list the options.

If your program is a multi-file project, the source given as parameter must be the main source file, the compiler will know dependencies from "include" statements and will build what is needed.

Exemples:

Type from the main scriptol directory:
./solc -bre demosfibo

Configuring:

By editing the solc.ini file, you may change the second pass compiler (you may have to rebuild the libsol library for this compiler), change the options of the compiler or add header files to include.

To add header files, just add "header=someheader.hpp" lines into the config file.

A xxx.cfg file may be written for each project main source beeing xxx, and if present, it overloads the solc.ini file.

XML::Filter::Dispatcher::Compiler can compile rulesets in to code.

SYNOPSIS

use XML::Filter::Dispatcher::Compiler qw( xinline );

my $c = XML::Filter::Dispatcher::Compiler->new( ... )

my $code = $c->compile(
Package => "My::Filter",
Rules => [
a/b/c => xinline q{warn "found a/b/c"},
],
Output => "lib/My/Filter.pm", ## optional
);

Most of the options from XML::Filter::Dispatcher are accepted.

NOTE: you cannot pass code references to compile() if you want to write the $code to disk, they will not survive. If you want to eval $code, this is ok.

METHODS

xinline

Hints to X::F::D that the string is inlinable code. This is a requirement when using the compiler and is so far (v.52) ignored elswhere. In xinlined code, $self refers to the current dispatcher and $e refers to the current events data. Or you can get that yourself in $_[0] and $_[1] as in a normal SAX event handling method.

compile

Accepts options that extend and override any previously set for the duration of the compile(), including the ruleset to compile.

ObjectBox is a free, opensource o:XML compiler and interpretor written entirely in Java. ObjectBox o:XML Compiler implements The o:XML Programming Language specification, and provides a complete compilation and runtime environment.
Main features:
- Java extensions - o:XML procedure that converts any Java class/object to an o:XML type for seamless language integration, making existing Java classes instantly available for instantiation and subtyping as any other o:XML type.
- Java Servlet support for deployment in J2EE environments.
- Caching of compiled programs allowing threadsafe concurrent execution.
- Commandline executable that passes arguments to o:XML program.
- Java Ant task for powerful content generation and integration in XML publishing systems.
Before compilation the program file is parsed and validated for well-formedness. The result of compiling a program is an object hierarchy of actions, that will produce the program result as a sequential output to either a DOM tree, output stream or a SAX content handler.
In order to obtain a complete and fully valid XML document, the program must terminate successfully. However all o:XML programs dont necessarily terminate - see the Fibonacci Series for an example of a program that generates an infinite, unbroken XML stream.
A compiled o:XML program contains all parsed o:Path expressions and XML-generating objects. It is thread-safe and can execute concurrently in different runtime environments, producing output to different result handlers. The program in its compiled form is independent of the XML file it was generated from as well as the physical form of its output.
Version restrictions:
- Access Specifiers (public/private/protected) not fully implemented
- Context Node probably not always correct
Enhancements:
- Integration with the Spring 2.0 framework.
- Allows for the creation of o:XML beans in Spring 2.0.
- Full integration with support for XML schema configuration, and the ability to mix and match beans: o:XML, Java, JRuby, Groovy, Beanshell, etc.

Aubit 4GL compiler is a project to make a free Informix-4GL compatible compiler. Aubit 4GL compiler translates 4GL source into executable programs, enabling fast creation of screen/form-based applications.

With support for SQL statements forming an intrinsic part of the language, its especially suitable for developing database-oriented applications. Database connectivity is provided for PostgreSQL, Informix, and ODBC. It supports both ncurses (console mode) and GTK+ (GUI mode) output.