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\input texinfo @c -*-texinfo-*-
@c %**start of header
@setfilename hacking.info
@settitle GNU Classpath Hacker's Guide
@c %**end of header
@setchapternewpage none
@ifinfo
This file contains important information you will need to know if you
are going to hack on the GNU Classpath project code.
Copyright (C) 1998,1999,2000,2001,2002,2003,2004, 2005 Free Software Foundation, Inc.
@ifnotplaintext
@dircategory GNU Libraries
@direntry
* Classpath Hacking: (hacking). GNU Classpath Hacker's Guide
@end direntry
@end ifnotplaintext
@end ifinfo
@titlepage
@title GNU Classpath Hacker's Guide
@author Aaron M. Renn
@author Paul N. Fisher
@author John Keiser
@author C. Brian Jones
@author Mark J. Wielaard
@page
@vskip 0pt plus 1filll
Copyright @copyright{} 1998,1999,2000,2001,2002,2003,2004 Free Software Foundation, Inc.
@sp 2
Permission is granted to make and distribute verbatim copies of
this document provided the copyright notice and this permission notice
are preserved on all copies.
Permission is granted to copy and distribute modified versions of this
document under the conditions for verbatim copying, provided that the
entire resulting derived work is distributed under the terms of a
permission notice identical to this one.
Permission is granted to copy and distribute translations of this manual
into another language, under the above conditions for modified versions,
except that this permission notice may be stated in a translation
approved by the Free Software Foundation.
@end titlepage
@ifinfo
@node Top, Introduction, (dir), (dir)
@top GNU Classpath Hacker's Guide
This document contains important information you'll want to know if
you want to hack on GNU Classpath, Essential Libraries for Java, to
help create free core class libraries for use with virtual machines
and compilers for the java programming language.
@end ifinfo
@menu
* Introduction:: An introduction to the GNU Classpath project
* Requirements:: Very important rules that must be followed
* Volunteering:: So you want to help out
* Project Goals:: Goals of the GNU Classpath project
* Needed Tools and Libraries:: A list of programs and libraries you will need
* Programming Standards:: Standards to use when writing code
* Hacking Code:: Working on code, Working with others
* Programming Goals:: What to consider when writing code
* API Compatibility:: How to handle serialization and deprecated methods
* Specification Sources:: Where to find class library specs
* Naming Conventions:: How files and directories are named
* Character Conversions:: Working on Character conversions
* Localization:: How to handle localization/internationalization
@detailmenu
--- The Detailed Node Listing ---
Programming Standards
* Source Code Style Guide::
Working on the code, Working with others
* Writing ChangeLogs::
Programming Goals
* Portability:: Writing Portable Software
* Utility Classes:: Reusing Software
* Robustness:: Writing Robust Software
* Java Efficiency:: Writing Efficient Java
* Native Efficiency:: Writing Efficient JNI
* Security:: Writing Secure Software
API Compatibility
* Serialization:: Serialization
* Deprecated Methods:: Deprecated methods
Localization
* String Collation:: Sorting strings in different locales
* Break Iteration:: Breaking up text into words, sentences, and lines
* Date Formatting and Parsing:: Locale specific date handling
* Decimal/Currency Formatting and Parsing:: Local specific number handling
@end detailmenu
@end menu
@node Introduction, Requirements, Top, Top
@comment node-name, next, previous, up
@chapter Introduction
The GNU Classpath Project is a dedicated to providing a 100% free,
clean room implementation of the standard core class libraries for
compilers and runtime environments for the java programming language.
It offers free software developers an alternative core library
implementation upon which larger java-like programming environments
can be build. The GNU Classpath Project was started in the Spring of
1998 as an official Free Software Foundation project. Most of the
volunteers working on GNU Classpath do so in their spare time, but a
couple of projects based on GNU Classpath have paid programmers to
improve the core libraries. We appreciate everyone's efforts in the
past to improve and help the project and look forward to future
contributions by old and new members alike.
@node Requirements, Volunteering, Introduction, Top
@comment node-name, next, previous, up
@chapter Requirements
Although GNU Classpath is following an open development model where input
from developers is welcome, there are certain base requirements that
need to be met by anyone who wants to contribute code to this project.
They are mostly dictated by legal requirements and are not arbitrary
restrictions chosen by the GNU Classpath team.
You will need to adhere to the following things if you want to donate
code to the GNU Classpath project:
@itemize @bullet
@item
@strong{Never under any circumstances refer to proprietary code while
working on GNU Classpath.} It is best if you have never looked at
alternative proprietary core library code at all. To reduce
temptation, it would be best if you deleted the @file{src.zip} file
from your proprietary JDK distribution (note that recent versions of
GNU Classpath and the compilers and environments build on it are
mature enough to not need any proprietary implementation at all when
working on GNU Classpath, except in exceptional cases where you need
to test compatibility issues pointed out by users). If you have
signed Sun's non-disclosure statement, then you unfortunately cannot
work on Classpath code at all. If you have any reason to believe that
your code might be ``tainted'', please say something on the mailing
list before writing anything. If it turns out that your code was not
developed in a clean room environment, we could be very embarrassed
someday in court. Please don't let that happen.
@item
@strong{Never decompile proprietary class library implementations.} While
the wording of the license in Sun's Java 2 releases has changed, it is
not acceptable, under any circumstances, for a person working on
GNU Classpath to decompile Sun's class libraries. Allowing the use of
decompilation in the GNU Classpath project would open up a giant can of
legal worms, which we wish to avoid.
@item
Classpath is licensed under the terms of the
@uref{http://www.fsf.org/copyleft/gpl.html,GNU General Public
License}, with a special exception included to allow linking with
non-GPL licensed works as long as no other license would restrict such
linking. To preserve freedom for all users and to maintain uniform
licensing of Classpath, we will not accept code into the main
distribution that is not licensed under these terms. The exact
wording of the license of the current version of GNU Classpath can be
found online from the
@uref{http://www.gnu.org/software/classpath/license.html, GNU
Classpath license page} and is of course distributed with current
snapshot release from @uref{ftp://ftp.gnu.org/gnu/classpath/} or by
obtaining a copy of the current CVS tree.
@item
GNU Classpath is GNU software and this project is being officially sponsored
by the @uref{http://www.fsf.org/,Free Software Foundation}. Because of
this, the FSF will hold copyright to all code developed as part of
GNU Classpath. This will allow them to pursue copyright violators in court,
something an individual developer may neither have the time nor
resources to do. Everyone contributing code to GNU Classpath will need to
sign a copyright assignment statement. Additionally, if you are
employed as a programmer, your employer may need to sign a copyright
waiver disclaiming all interest in the software. This may sound harsh,
but unfortunately, it is the only way to ensure that the code you write
is legally yours to distribute.
@end itemize
@node Volunteering, Project Goals, Requirements, Top
@comment node-name, next, previous, up
@chapter Volunteering to Help
The GNU Classpath project needs volunteers to help us out. People are
needed to write unimplemented core packages, to test GNU Classpath on
free software programs written in the java programming language, to
test it on various platforms, and to port it to platforms that are
currently unsupported.
While pretty much all contributions are welcome (but see
@pxref{Requirements}) it is always preferable that volunteers do the
whole job when volunteering for a task. So when you volunteer to write
a Java package, please be willing to do the following:
@itemize @bullet
@item
Implement a complete drop-in replacement for the particular package.
That means implementing any ``internal'' classes. For example, in the
java.net package, there are non-public classes for implementing sockets.
Without those classes, the public socket interface is useless. But do
not feel obligated to completely implement all of the functionality at
once. For example, in the java.net package, there are different types
of protocol handlers for different types of URL's. Not all of these
need to be written at once.
@item
Please write complete and thorough API documentation comments for
every public and protected method and variable. These should be
superior to Sun's and cover everything about the item being
documented.
@item
Please write a regression test package that can be used to run tests
of your package's functionality. GNU Classpath uses the
@uref{http://sources.redhat.com/mauve/,Mauve project} for testing the
functionality of the core class libraries. The Classpath Project is
fast approaching the point in time where all modifications to the
source code repository will require appropriate test cases in Mauve to
ensure correctness and prevent regressions.
@end itemize
Writing good documentation, tests and fixing bugs should be every
developer's top priority in order to reach the elusive release of
version 1.0.
@node Project Goals, Needed Tools and Libraries, Volunteering, Top
@comment node-name, next, previous, up
@chapter Project Goals
The goal of the Classpath project is to produce a
@uref{http://www.fsf.org/philosophy/free-sw.html,free} implementation of
the standard class library for Java. However, there are other more
specific goals as to which platforms should be supported.
Classpath is targeted to support the following operating systems:
@enumerate
@item
Free operating systems. This includes GNU/Linux, GNU/Hurd, and the free
BSDs.
@item
Other Unix-like operating systems.
@item
Platforms which currently have no Java support at all.
@item
Other platforms such as MS-Windows.
@end enumerate
While free operating systems are the top priority, the other priorities
can shift depending on whether or not there is a volunteer to port
Classpath to those platforms and to test releases.
Eventually we hope the Classpath will support all JVM's that provide
JNI or CNI support. However, the top priority is free JVM's. A small
list of Compiler/VM environments that are currently actively
incorporating GNU Classpath is below. A more complete overview of
projects based on GNU classpath can be found online at
@uref{http://www.gnu.org/software/classpath/stories.html,the GNU
Classpath stories page}.
@enumerate
@item
@uref{http://gcc.gnu.org/java/,GCJ}
@item
@uref{http://jamvm.sourceforge.net/,jamvm}
@item
@uref{http://kissme.sourceforge.net/,Kissme}
@item
@uref{http://www.ibm.com/developerworks/oss/jikesrvm/,Jikes RVM}
@item
@uref{http://www.sablevm.org/,SableVM}
@item
@uref{http://www.kaffe.org/,Kaffe}
@end enumerate
As with OS platform support, this priority list could change if a
volunteer comes forward to port, maintain, and test releases for a
particular JVM. Since gcj is part of the GNU Compiler Collective it
is one of the most important targets. But since it doesn't currently
work out of the box with GNU Classpath it is currently not the easiest
target. When hacking on GNU Classpath the easiest is to use
compilers and runtime environments that that work out of the box with
it, such as the jikes compiler and the runtime environments jamvm and
kissme. But you can also work directly with targets like gcj and
kaffe that have their own copy of GNU Classpath currently. In that
case changes have to be merged back into GNU Classpath proper though,
which is sometimes more work. SableVM is starting to migrate from an
integrated GNU Classpath version to being usable with GNU Classpath
out of the box.
The initial target version for Classpath is the 1.1 spec. Higher
versions can be implemented (and have been implemented, including lots
of 1.4 functionality) if desired, but please do not create classes
that depend on features in those packages unless GNU Classpath already
contains those features. GNU Classpath has been free of any
proprietary dependencies for a long time now and we like to keep it
that way. But finishing, polishing up, documenting, testing and
debugging current functionality is of higher priority then adding new
functionality.
@node Needed Tools and Libraries, Programming Standards, Project Goals, Top
@comment node-name, next, previous, up
@chapter Needed Tools and Libraries
If you want to hack on Classpath, you should at least download and
install the following tools. And try to familiarize yourself with
them. Although in most cases having these tools installed will be all
you really need to know about them. Also note that when working on
(snapshot) releases only GCC 3.3+ (plus a free VM from the list above
and the libraries listed below) is needed. The other tools are only
needed when working directly on the CVS version.
@itemize @bullet
@item
GCC 3.3+
@item
CVS 1.11+
@item
automake 1.7+
@item
autoconf 2.59+
@item
libtool 1.4.2+
@item
GNU m4 1.4
@item
texinfo 4.2+
@end itemize
All of these tools are available from
@uref{ftp://gnudist.gnu.org/pub/gnu/,gnudist.gnu.org} via anonymous
ftp, except CVS which is available from
@uref{http://www.cvshome.org/,www.cvshome.org}. They are fully
documented with texinfo manuals. Texinfo can be browsed with the
Emacs editor, or with the text editor of your choice, or transformed
into nicely printable Postscript.
Here is a brief description of the purpose of those tools.
@table @b
@item GCC
The GNU Compiler Collection. This contains a C compiler (gcc) for
compiling the native C code and a compiler for the java programming
language (gcj). You will need at least gcj version 3.3 or higher. If
that version is not available for your platform you can try the
@uref{http://www.jikes.org/, jikes compiler}. We try to keep all code
compilable with both gcj and jikes at all times.
@item CVS
A version control system that maintains a centralized Internet
repository of all code in the Classpath system.
@item automake
This tool automatically creates Makefile.in files from Makefile.am
files. The Makefile.in is turned into a Makefile by autoconf. Why
use this? Because it automatically generates every makefile target
you would ever want (clean, install, dist, etc) in full compliance
with the GNU coding standards. It also simplifies Makefile creation
in a number of ways that cannot be described here. Read the docs for
more info.
@item autoconf
Automatically configures a package for the platform on which it is
being built and generates the Makefile for that platform.
@item libtool
Handles all of the zillions of hairy platform specific options needed
to build shared libraries.
@item m4
The free GNU replacement for the standard Unix macro processor.
Proprietary m4 programs are broken and so GNU m4 is required for
autoconf to work though knowing a lot about GNU m4 is not required to
work with autoconf.
@item perl
Larry Wall's scripting language. It is used internally by automake.
@item texinfo
Manuals and documentation (like this guide) are written in texinfo.
Texinfo is the official documentation format of the GNU project.
Texinfo uses a single source file to produce output in a number of formats,
both online and printed (dvi, info, html, xml, etc.). This means that
instead of writing different documents for online information and another
for a printed manual, you need write only one document. And when the work
is revised, you need revise only that one document.
@end table
For compiling the native AWT libraries you need to have the following
libraries installed:
@table @b
@item GTK+ 2.2.x
@uref{http://www.gtk.org/,GTK+} is a multi-platform toolkit for
creating graphical user interfaces. It is used as the basis of the
GNU desktop project GNOME.
@item libart-lgpl 2.1+
@uref{http://www.gnome.org/start/,libart} is a GNOME library of
functions for 2D graphics.
@item gdk-pixbuf
@uref{http://www.gnome.org/start/,gdk-pixbuf} is a GNOME library for
representing images.
@end table
GNU Classpath comes with a couple of libraries included in the source
that are not part of GNU Classpath proper, but that have been included
to provide certain needed functionality. All these external libraries
should be clearly marked as such. In general we try to use as much as
possible the clean upstream versions of these sources. That way
merging in new versions will be easiest. You should always try to get
bug fixes to these files accepted upstream first. Currently we
include the following 'external' libraries. Most of these sources are
included in the @file{external} directory. That directory also
contains a @file{README} file explaining how to import newer versions.
@table @b
@item GNU jaxp
Can be found in @file{external/jaxp}. Provides javax.xml, org.w3c and
org.xml packages. Upstream is
@uref{http://www.gnu.org/software/classpathx/,GNU ClasspathX}.
@item fdlibm
Can be found in @file{native/fdlibm}. Provides native implementations
of some of the Float and Double operations. Upstream is
@uref{http://gcc.gnu.org/java/,libgcj}, they sync again with the
'real' upstream @uref{http://www.netlib.org/fdlibm/readme}. See also
java.lang.StrictMath.
@end table
@node Programming Standards, Hacking Code, Needed Tools and Libraries, Top
@comment node-name, next, previous, up
@chapter Programming Standards
For C source code, follow the
@uref{http://www.fsf.org/prep/standards_toc.html,GNU Coding Standards}.
The standards also specify various things like the install directory
structure. These should be followed if possible.
For Java source code, please follow the
@uref{http://www.fsf.org/prep/standards_toc.html,GNU Coding
Standards}, as much as possible. There are a number of exceptions to
the GNU Coding Standards that we make for GNU Classpath as documented
in this guide. We will hopefully be providing developers with a code
formatting tool that closely matches those rules soon.
For API documentation comments, please follow
@uref{http://java.sun.com/products/jdk/javadoc/writingdoccomments.html,How
to Write Doc Comments for Javadoc}. We would like to have a set of
guidelines more tailored to GNU Classpath as part of this document.
@menu
* Source Code Style Guide::
@end menu
@node Source Code Style Guide, , Programming Standards, Programming Standards
@comment node-name, next, previous, up
@section Java source coding style
Here is a list of some specific rules used when hacking on GNU
Classpath java source code. We try to follow the standard
@uref{http://www.gnu.org/prep/standards_23.html,GNU Coding Standards}
for that. There are lots of tools that can automatically generate it
(although most tools assume C source, not java source code) and it
seems as good a standard as any. There are a couple of exceptions and
specific rules when hacking on GNU Classpath java source code however.
The following lists how code is formatted (and some other code
conventions):
@itemize
@item
Java source files in GNU Classpath are encoded using UTF-8. However,
ordinarily it is considered best practice to use the ASCII subset of
UTF-8 and write non-ASCII characters using \u escapes.
@item
If possible, generate specific imports (expand) over java.io.* type
imports. Order by gnu, java, javax, org. There must be one blank line
between each group. The imports themselves are ordered alphabetically by
package name. Classes and interfaces occur before sub-packages. The
classes/interfaces are then also sorted alphabetical. Note that uppercase
characters occur before lowercase characters.
@example
import gnu.java.awt.EmbeddedWindow;
import java.io.IOException;
import java.io.InputStream;
import javax.swing.JFrame;
@end example
@item
Blank line after package statement, last import statement, classes,
interfaces, methods.
@item
Opening/closing brace for class and method is at the same level of
indent as the declaration. All other braces are indented and content
between braces indented again.
@item
Since method definitions don't start in column zero anyway (since they
are always inside a class definition), the rational for easy grepping
for ``^method_def'' is mostly gone already. Since it is customary for
almost everybody who writes java source code to put modifiers, return
value and method name on the same line, we do too.
@c fixme Another rational for always indenting the method definition is that itmakes it a bit easier to distinguish methods in inner and anonymousclasses from code in their enclosing context. NEED EXAMPLE.
@item
Implements and extends on separate lines, throws too. Indent extends,
implements, throws. Apply deep indentation for method arguments.
@c fixme Needs example.
@item
Don't add a space between a method or constructor call/definition and
the open-bracket. This is because often the return value is an object on
which you want to apply another method or from which you want to access
a field.
Don't write:
@example
getToolkit ().createWindow (this);
@end example
But write:
@example
getToolkit().createWindow(this);
@end example
@item
The GNU Coding Standard it gives examples for almost every construct
(if, switch, do, while, etc.). One missing is the try-catch construct
which should be formatted as:
@example
try
@{
//
@}
catch (...)
@{
//
@}
@end example
@item
Wrap lines at 80 characters after assignments and before operators.
Wrap always before extends, implements, throws, and labels.
@item
Don't put multiple class definitions in the same file, except for
inner classes. File names (plus .java) and class names should be the
same.
@item
Don't catch a @code{NullPointerException} as an alternative to simply
checking for @code{null}. It is clearer and usually more efficient
to simply write an explicit check.
For instance, don't write:
@example
try
@{
return foo.doit();
@}
catch (NullPointerException _)
@{
return 7;
@}
@end example
If your intent above is to check whether @samp{foo} is @code{null},
instead write:
@example
if (foo == null)
return 7;
else
return foo.doit();
@end example
@item
Don't use redundant modifiers or other redundant constructs. Here is
some sample code that shows various redundant items in comments:
@example
/*import java.lang.Integer;*/
/*abstract*/ interface I @{
/*public abstract*/ void m();
/*public static final*/ int i = 1;
/*public static*/ class Inner @{@}
@}
final class C /*extends Object*/ @{
/*final*/ void m() @{@}
@}
@end example
Note that Jikes will generate warnings for redundant modifiers if you
use @code{+Predundant-modifiers} on the command line.
@item
Modifiers should be listed in the standard order recommended by the
JLS. Jikes will warn for this when given @code{+Pmodifier-order}.
@item
Because the output of different compilers differs, we have
standardized on explicitly specifying @code{serialVersionUID} in
@code{Serializable} classes in Classpath. This field should be
declared as @code{private static final}. Note that a class may be
@code{Serializable} without being explicitly marked as such, due to
inheritance. For instance, all subclasses of @code{Throwable} need to
have @code{serialVersionUID} declared.
@c fixme index
@c fixme link to the discussion
@item
Don't declare unchecked exceptions in the @code{throws} clause of a
method. However, if throwing an unchecked exception is part of the
method's API, you should mention it in the Javadoc.
@item
When overriding @code{Object.equals}, remember that @code{instanceof}
filters out @code{null}, so an explicit check is not needed.
@item
When catching an exception and rethrowing a new exception you should
``chain'' the Throwables. Don't just add the String representation of
the caught exception.
@example
try
@{
// Some code that can throw
@}
catch (IOException ioe)
@{
throw (SQLException) new SQLException("Database corrupt").setCause(ioe);
@}
@end example
@item
Avoid the use of reserved words for identifiers. This is obvious with those
such as @code{if} and @code{while} which have always been part of the Java
programming language, but you should be careful about accidentally using
words which have been added in later versions. Notable examples are
@code{assert} (added in 1.4) and @code{enum} (added in 1.5). Jikes will warn
of the use of the word @code{enum}, but, as it doesn't yet support the 1.5
version of the language, it will still allow this usage through. A
compiler which supports 1.5 (e.g. the Eclipse compiler, ecj) will simply
fail to compile the offending source code.
@c fixme Describe Anonymous classes (example).
@c fixme Descibe Naming conventions when different from GNU Coding Standards.
@c fixme Describee API doc javadoc tags used.
@end itemize
Some things are the same as in the normal GNU Coding Standards:
@itemize
@item
Unnecessary braces can be removed, one line after an if, for, while as
examples.
@item
Space around operators (assignment, logical, relational, bitwise,
mathematical, shift).
@item
Blank line before single-line comments, multi-line comments, javadoc
comments.
@item
If more than 2 blank lines, trim to 2.
@item
Don't keep commented out code. Just remove it or add a real comment
describing what it used to do and why it is changed to the current
implementation.
@end itemize
@node Hacking Code, Programming Goals, Programming Standards, Top
@comment node-name, next, previous, up
@chapter Working on the code, Working with others
There are a lot of people helping out with GNU Classpath. Here are a
couple of practical guidelines to make working together on the code
smoother.
The main thing is to always discuss what you are up to on the
mailinglist. Making sure that everybody knows who is working on what
is the most important thing to make sure we cooperate most
effectively.
We maintain a
@uref{http://www.gnu.org/software/classpath/tasks.html,Task List}
which contains items that you might want to work on.
Before starting to work on something please make sure you read this
complete guide. And discuss it on list to make sure your work does
not duplicate or interferes with work someone else is already doing.
Always make sure that you submit things that are your own work. And
that you have paperwork on file (as stated in the requirements
section) with the FSF authorizing the use of your additions.
Technically the GNU Classpath project is hosted on
@uref{http://savannah.gnu.org/,Savannah} a central point for
development, distribution and maintenance of GNU Software. Here you
will find the
@uref{https://savannah.gnu.org/projects/classpath/,project page}, bug
reports, pending patches, links to mailing lists, news items and CVS.
You can find instructions on getting a CVS checkout for classpath at
@uref{https://savannah.gnu.org/cvs/?group=classpath}.
You don't have to get CVS commit write access to contribute, but it is
sometimes more convenient to be able to add your changes directly to
the project CVS. Please contact the GNU Classpath savannah admins to
arrange CVS access if you would like to have it.
Make sure to be subscribed to the commit-classpath mailinglist while
you are actively hacking on Classpath. You have to send patches (cvs
diff -uN) to this list before committing.
We really want to have a pretty open check-in policy. But this means
that you should be extra careful if you check something in. If at all
in doubt or if you think that something might need extra explaining
since it is not completely obvious please make a little announcement
about the change on the mailinglist. And if you do commit something
without discussing it first and another GNU Classpath hackers asks for
extra explanation or suggests to revert a certain commit then please
reply to the request by explaining why something should be so or if
you agree to revert it. (Just reverting immediately is OK without
discussion, but then please don't mix it with other changes and please
say so on list.)
Patches that are already approved for libgcj or also OK for Classpath.
(But you still have to send a patch/diff to the list.) All other
patches require you to think whether or not they are really OK and
non-controversial, or if you would like some feedback first on them
before committing. We might get real commit rules in the future, for
now use your own judgment, but be a bit conservative.
Always contact the GNU Classpath maintainer before adding anything
non-trivial that you didn't write yourself and that does not come from
libgcj or from another known GNU Classpath or libgcj hacker. If you
have been assigned to commit changes on behalf of another project or
a company always make sure they come from people who have signed the
papers for the FSF and/or fall under the arrangement your company made
with the FSF for contributions. Mention in the ChangeLog who actually
wrote the patch.
Commits for completely unrelated changes they should be committed
separately (especially when doing a formatting change and a logical
change, do them in two separate commits). But do try to do a commit of
as much things/files that are done at the same time which can
logically be seen as part of the same change/cleanup etc.
When the change fixes an important bug or adds nice new functionality
please write a short entry for inclusion in the @file{NEWS} file. If it
changes the VM interface you must mention that in both the @file{NEWS} file
and the VM Integration Guide.
All the ``rules'' are really meant to make sure that GNU Classpath
will be maintainable in the long run and to give all the projects that
are now using GNU Classpath an accurate view of the changes we make to
the code and to see what changed when. If you think the requirements
are ``unworkable'' please try it first for a couple of weeks. If you
still feel the same after having some more experience with the project
please feel free to bring up suggestions for improvements on the list.
But don't just ignore the rules! Other hackers depend on them being
followed to be the most productive they can be (given the above
constraints).
@menu
* Writing ChangeLogs::
@end menu
@node Writing ChangeLogs, , Hacking Code, Hacking Code
@comment node-name, next, previous, up
@section Documenting what changed when with ChangeLog entries
To keep track of who did what when we keep an explicit ChangeLog entry
together with the code. This mirrors the CVS commit messages and in
general the ChangeLog entry is the same as the CVS commit message.
This provides an easy way for people getting a (snapshot) release or
without access to the CVS server to see what happened when. We do not
generate the ChangeLog file automatically from the CVS server since
that is not reliable.
A good ChangeLog entry guideline can be found in the Guile Manual at
@uref{http://www.gnu.org/software/guile/changelogs/guile-changelogs_3.html}.
Here are some example to explain what should or shouldn't be in a
ChangeLog entry (and the corresponding commit message):
@itemize
@item
The first line of a ChangeLog entry should be:
@example
[date] <two spaces> [full name] <two spaces> [email-contact]
@end example
The second line should be blank. All other lines should be indented
with one tab.
@item
Just state what was changed. Why something is done as it is done in
the current code should be either stated in the code itself or be
added to one of the documentation files (like this Hacking Guide).
So don't write:
@example
* java/awt/font/OpenType.java: Remove 'public static final'
from OpenType tags, reverting the change of 2003-08-11. See
Classpath discussion list of 2003-08-11.
@end example
Just state:
@example
* java/awt/font/OpenType.java: Remove 'public static final' from
all member fields.
@end example
In this case the reason for the change was added to this guide.
@item
Just as with the normal code style guide, don't make lines longer then
80 characters.
@item
Just as with comments in the code. The ChangeLog entry should be a
full sentence, starting with a captital and ending with a period.
@item
Be precise in what changed, not the effect of the change (which should
be clear from the code/patch). So don't write:
@example
* java/io/ObjectOutputStream.java : Allow putFields be called more
than once.
@end example
But explain what changed and in which methods it was changed:
@example
* java/io/ObjectOutputStream.java (putFields): Don't call
markFieldsWritten(). Only create new PutField when
currentPutField is null.
(writeFields): Call markFieldsWritten().
@end example
@end itemize
The above are all just guidelines. We all appreciate the fact that writing
ChangeLog entries, using a coding style that is not ``your own'' and the
CVS, patch and diff tools do take some time to getting used to. So don't
feel like you have to do it perfect right away or that contributions
aren't welcome if they aren't ``perfect''. We all learn by doing and
interacting with each other.
@node Programming Goals, API Compatibility, Hacking Code, Top
@comment node-name, next, previous, up
@chapter Programming Goals
When you write code for Classpath, write with three things in mind, and
in the following order: portability, robustness, and efficiency.
If efficiency breaks portability or robustness, then don't do it the
efficient way. If robustness breaks portability, then bye-bye robust
code. Of course, as a programmer you would probably like to find sneaky
ways to get around the issue so that your code can be all three ... the
following chapters will give some hints on how to do this.
@menu
* Portability:: Writing Portable Software
* Utility Classes:: Reusing Software
* Robustness:: Writing Robust Software
* Java Efficiency:: Writing Efficient Java
* Native Efficiency:: Writing Efficient JNI
* Security:: Writing Secure Software
@end menu
@node Portability, Utility Classes, Programming Goals, Programming Goals
@comment node-name, next, previous, up
@section Portability
The portability goal for Classpath is the following:
@enumerate
@item
native functions for each platform that work across all VMs on that
platform
@item
a single classfile set that work across all VMs on all platforms that
support the native functions.
@end enumerate
For almost all of Classpath, this is a very feasible goal, using a
combination of JNI and native interfaces. This is what you should shoot
for. For those few places that require knowledge of the Virtual Machine
beyond that provided by the Java standards, the VM Interface was designed.
Read the Virtual Machine Integration Guide for more information.
Right now the only supported platform is Linux. This will change as that
version stabilizes and we begin the effort to port to many other
platforms. Jikes RVM runs Classpath on AIX, and generally the Jikes
RVM team fixes Classpath to work on that platform.
@node Utility Classes, Robustness, Portability, Programming Goals
@comment node-name, next, previous, up
@section Utility Classes
At the moment, we are not very good at reuse of the JNI code. There
have been some attempts, called @dfn{libclasspath}, to
create generally useful utility classes. The utility classes are in
the directory @file{native/jni/classpath} and they are mostly declared
in @file{native/jni/classpath/jcl.h}. These utility classes are
currently only discussed in @ref{Robustness} and in @ref{Native
Efficiency}.
There are more utility classes available that could be factored out if
a volunteer wants something nice to hack on. The error reporting and
exception throwing functions and macros in
@file{native/jni/gtk-peer/gthread-jni.c} might be good
candidates for reuse. There are also some generally useful utility
functions in @file{gnu_java_awt_peer_gtk_GtkMainThread.c} that could
be split out and put into libclasspath.
@node Robustness, Java Efficiency, Utility Classes, Programming Goals
@comment node-name, next, previous, up
@section Robustness
Native code is very easy to make non-robust. (That's one reason Java is
so much better!) Here are a few hints to make your native code more
robust.
Always check return values for standard functions. It's sometimes easy
to forget to check that malloc() return for an error. Don't make that
mistake. (In fact, use JCL_malloc() in the jcl library instead--it will
check the return value and throw an exception if necessary.)
Always check the return values of JNI functions, or call
@code{ExceptionOccurred} to check whether an error occurred. You must
do this after @emph{every} JNI call. JNI does not work well when an
exception has been raised, and can have unpredictable behavior.
Throw exceptions using @code{JCL_ThrowException}. This guarantees that if
something is seriously wrong, the exception text will at least get out
somewhere (even if it is stderr).
Check for null values of @code{jclass}es before you send them to JNI functions.
JNI does not behave nicely when you pass a null class to it: it
terminates Java with a "JNI Panic."
In general, try to use functions in @file{native/jni/classpath/jcl.h}. They
check exceptions and return values and throw appropriate exceptions.
@node Java Efficiency, Native Efficiency, Robustness, Programming Goals
@comment node-name, next, previous, up
@section Java Efficiency
For methods which explicitly throw a @code{NullPointerException} when an
argument is passed which is null, per a Sun specification, do not write
code like:
@example
int
strlen (String foo) throws NullPointerException
@{
if (foo == null)
throw new NullPointerException ("foo is null");
return foo.length ();
@}
@end example
Instead, the code should be written as:
@example
int
strlen (String foo) throws NullPointerException
@{
return foo.length ();
@}
@end example
Explicitly comparing foo to null is unnecessary, as the virtual machine
will throw a NullPointerException when length() is invoked. Classpath
is designed to be as fast as possible -- every optimization, no matter
how small, is important.
@node Native Efficiency, Security, Java Efficiency, Programming Goals
@comment node-name, next, previous, up
@section Native Efficiency
You might think that using native methods all over the place would give
our implementation of Java speed, speed, blinding speed. You'd be
thinking wrong. Would you believe me if I told you that an empty
@emph{interpreted} Java method is typically about three and a half times
@emph{faster} than the equivalent native method?
Bottom line: JNI is overhead incarnate. In Sun's implementation, even
the JNI functions you use once you get into Java are slow.
A final problem is efficiency of native code when it comes to things
like method calls, fields, finding classes, etc. Generally you should
cache things like that in static C variables if you're going to use them
over and over again. GetMethodID(), GetFieldID(), and FindClass() are
@emph{slow}. Classpath provides utility libraries for caching methodIDs
and fieldIDs in @file{native/jni/classpath/jnilink.h}. Other native data can
be cached between method calls using functions found in
@file{native/jni/classpath/native_state.h}.
Here are a few tips on writing native code efficiently:
Make as few native method calls as possible. Note that this is not the
same thing as doing less in native method calls; it just means that, if
given the choice between calling two native methods and writing a single
native method that does the job of both, it will usually be better to
write the single native method. You can even call the other two native
methods directly from your native code and not incur the overhead of a
method call from Java to C.
Cache @code{jmethodID}s and @code{jfieldID}s wherever you can. String
lookups are
expensive. The best way to do this is to use the
@file{native/jni/classpath/jnilink.h}
library. It will ensure that @code{jmethodID}s are always valid, even if the
class is unloaded at some point. In 1.1, jnilink simply caches a
@code{NewGlobalRef()} to the method's underlying class; however, when 1.2 comes
along, it will use a weak reference to allow the class to be unloaded
and then re-resolve the @code{jmethodID} the next time it is used.
Cache classes that you need to access often. jnilink will help with
this as well. The issue here is the same as the methodID and fieldID
issue--how to make certain the class reference remains valid.
If you need to associate native C data with your class, use Paul
Fisher's native_state library (NSA). It will allow you to get and set
state fairly efficiently. Japhar now supports this library, making
native state get and set calls as fast as accessing a C variable
directly.
If you are using native libraries defined outside of Classpath, then
these should be wrapped by a Classpath function instead and defined
within a library of their own. This makes porting Classpath's native
libraries to new platforms easier in the long run. It would be nice
to be able to use Mozilla's NSPR or Apache's APR, as these libraries
are already ported to numerous systems and provide all the necessary
system functions as well.
@node Security, , Native Efficiency, Programming Goals
@comment node-name, next, previous, up
@section Security
Security is such a huge topic it probably deserves its own chapter.
Most of the current code needs to be audited for security to ensure
all of the proper security checks are in place within the Java
platform, but also to verify that native code is reasonably secure and
avoids common pitfalls, buffer overflows, etc. A good source for
information on secure programming is the excellent HOWTO by David
Wheeler,
@uref{http://www.dwheeler.com/secure-programs/Secure-Programs-HOWTO/index.html,Secure
Programming for Linux and Unix HOWTO}.
@node API Compatibility, Specification Sources, Programming Goals, Top
@comment node-name, next, previous, up
@chapter API Compatibility
@menu
* Serialization:: Serialization
* Deprecated Methods:: Deprecated methods
@end menu
@node Serialization, Deprecated Methods, API Compatibility, API Compatibility
@comment node-name, next, previous, up
@section Serialization
Sun has produced documentation concerning much of the information
needed to make Classpath serializable compatible with Sun
implementations. Part of doing this is to make sure that every class
that is Serializable actually defines a field named serialVersionUID
with a value that matches the output of serialver on Sun's
implementation. The reason for doing this is below.
If a class has a field (of any accessibility) named serialVersionUID
of type long, that is what serialver uses. Otherwise it computes a
value using some sort of hash function on the names of all method
signatures in the .class file. The fact that different compilers
create different synthetic method signatures, such as access$0() if an
inner class needs access to a private member of an enclosing class,
make it impossible for two distinct compilers to reliably generate the
same serial #, because their .class files differ. However, once you
have a .class file, its serial # is unique, and the computation will
give the same result no matter what platform you execute on.
Serialization compatibility can be tested using tools provided with
@uref{http://www.kaffe.org/~stuart/japi/,Japitools}. These
tools can test binary serialization compatibility and also provide
information about unknown serialized formats by writing these in XML
instead. Japitools is also the primary means of checking API
compatibility for GNU Classpath with Sun's Java Platform.
@node Deprecated Methods, , Serialization, API Compatibility
@comment node-name, next, previous, up
@section Deprecated Methods
Sun has a practice of creating ``alias'' methods, where a public or
protected method is deprecated in favor of a new one that has the same
function but a different name. Sun's reasons for doing this vary; as
an example, the original name may contain a spelling error or it may
not follow Java naming conventions.
Unfortunately, this practice complicates class library code that calls
these aliased methods. Library code must still call the deprecated
method so that old client code that overrides it continues to work.
But library code must also call the new version, because new code is
expected to override the new method.
The correct way to handle this (and the way Sun does it) may seem
counterintuitive because it means that new code is less efficient than
old code: the new method must call the deprecated method, and throughout
the library code calls to the old method must be replaced with calls to
the new one.
Take the example of a newly-written container laying out a component and
wanting to know its preferred size. The Component class has a
deprecated preferredSize method and a new method, getPreferredSize.
Assume that the container is laying out an old component that overrides
preferredSize and a new component that overrides getPreferredSize. If
the container calls getPreferredSize and the default implementation of
getPreferredSize calls preferredSize, then the old component will have
its preferredSize method called and new code will have its
getPreferredSize method called.
Even using this calling scheme, an old component may still be laid out
improperly if it implements a method, getPreferredSize, that has the
same signature as the new Component.getPreferredSize. But that is a
general problem -- adding new public or protected methods to a
widely-used class that calls those methods internally is risky, because
existing client code may have already declared methods with the same
signature.
The solution may still seem counterintuitive -- why not have the
deprecated method call the new method, then have the library always call
the old method? One problem with that, using the preferred size example
again, is that new containers, which will use the non-deprecated
getPreferredSize, will not get the preferred size of old components.
@node Specification Sources, Naming Conventions, API Compatibility, Top
@comment node-name, next, previous, up
@chapter Specification Sources
There are a number of specification sources to use when working on
Classpath. In general, the only place you'll find your classes
specified is in the JavaDoc documentation or possibly in the
corresponding white paper. In the case of java.lang, java.io and
java.util, you should look at the Java Language Specification.
Here, however, is a list of specs, in order of canonicality:
@enumerate
@item
@uref{http://java.sun.com/docs/books/jls/clarify.html,Clarifications and Amendments to the JLS - 1.1}
@item
@uref{http://java.sun.com/docs/books/jls/html/1.1Update.html,JLS Updates
- 1.1}
@item
@uref{http://java.sun.com/docs/books/jls/html/index.html,The 1.0 JLS}
@item
@uref{http://java.sun.com/docs/books/vmspec/index.html,JVM spec - 1.1}
@item
@uref{http://java.sun.com/products/jdk/1.1/docs/guide/jni/spec/jniTOC.doc.html,JNI spec - 1.1}
@item
@uref{http://java.sun.com/products/jdk/1.1/docs/api/packages.html,Sun's javadoc - 1.1}
(since Sun's is the reference implementation, the javadoc is
documentation for the Java platform itself.)
@item
@uref{http://java.sun.com/products/jdk/1.2/docs/guide/jvmdi/jvmdi.html,JVMDI spec - 1.2},
@uref{http://java.sun.com/products/jdk/1.2/docs/guide/jni/jni-12.html,JNI spec - 1.2}
(sometimes gives clues about unspecified things in 1.1; if
it was not specified accurately in 1.1, then use the spec
for 1.2; also, we are using JVMDI in this project.)
@item
@uref{http://java.sun.com/products/jdk/1.2/docs/api/frame.html,Sun's javadoc - 1.2}
(sometimes gives clues about unspecified things in 1.1; if
it was not specified accurately in 1.1, then use the spec
for 1.2)
@item
@uref{http://developer.java.sun.com/developer/bugParade/index.html,The
Bug Parade}: I have obtained a ton of useful information about how
things do work and how they *should* work from the Bug Parade just by
searching for related bugs. The submitters are very careful about their
use of the spec. And if something is unspecified, usually you can find
a request for specification or a response indicating how Sun thinks it
should be specified here.
@end enumerate
You'll notice that in this document, white papers and specification
papers are more canonical than the JavaDoc documentation. This is true
in general.
@node Naming Conventions, Character Conversions, Specification Sources, Top
@comment node-name, next, previous, up
@chapter Directory and File Naming Conventions
The Classpath directory structure is laid out in the following manner:
@example
classpath
|
|---->java
| |
| |-->awt
| |-->io
| |-->lang
| |-->util
| | |
| | |--->zip
| | |--->jar
| |-->net
| |-->etc
|
|---->gnu
| |
| |-->java
| |
| |-->awt
| |-->lang
| |-->util
| | |
| | |-->zip
| |-->etc
|
|---->native
|
|-->jni
| |-->classpath
| |-->gtk-peer
| |-->java-io
| |-->java-lang
| |-->java-net
| |-->java-util
| |-->etc
|-->cni
@end example
Here is a brief description of the toplevel directories and their contents.
@table @b
@item java
Contains the source code to the Java packages that make up the core
class library. Because this is the public interface to Java, it is
important that the public classes, interfaces, methods, and variables
are exactly the same as specified in Sun's documentation. The directory
structure is laid out just like the java package names. For example,
the class java.util.zip would be in the directory java-util.
@item gnu/java
Internal classes (roughly analogous to Sun's sun.* classes) should go
under the @file{gnu/java} directory. Classes related to a particular public
Java package should go in a directory named like that package. For
example, classes related to java.util.zip should go under a directory
@file{gnu/java/util/zip}. Sub-packages under the main package name are
allowed. For classes spanning multiple public Java packages, pick an
appropriate name and see what everybody else thinks.
@item native
This directory holds native code needed by the public Java packages.
Each package has its own subdirectory, which is the ``flattened'' name
of the package. For example, native method implementations for
java.util.zip should go in @file{native/classpath/java-util}. Classpath
actually includes an all Java version of the zip classes, so no native
code is required.
@end table
Each person working on a package get's his or her own ``directory
space'' underneath each of the toplevel directories. In addition to the
general guidelines above, the following standards should be followed:
@itemize @bullet
@item
Classes that need to load native code should load a library with the
same name as the flattened package name, with all hyphens removed. For
example, the native library name specified in LoadLibrary for
java-util would be ``javautil''.
@item
Each package has its own shared library for native code (if any).
@item
The main native method implementation for a given method in class should
go in a file with the same name as the class with a ``.c'' extension.
For example, the JNI implementation of the native methods in
java.net.InetAddress would go in @file{native/jni/java-net/InetAddress.c}.
``Internal'' native functions called from the main native method can
reside in files of any name.
@end itemize
@node Character Conversions, Localization, Naming Conventions, Top
@comment node-name, next, previous, up
@chapter Character Conversions
Java uses the Unicode character encoding system internally. This is a
sixteen bit (two byte) collection of characters encompassing most of the
world's written languages. However, Java programs must often deal with
outside interfaces that are byte (eight bit) oriented. For example, a
Unix file, a stream of data from a network socket, etc. Beginning with
Java 1.1, the @code{Reader} and @code{Writer} classes provide functionality
for dealing with character oriented streams. The classes
@code{InputStreamReader} and @code{OutputStreamWriter} bridge the gap
between byte streams and character streams by converting bytes to
Unicode characters and vice versa.
In Classpath, @code{InputStreamReader} and @code{OutputStreamWriter}
rely on an internal class called @code{gnu.java.io.EncodingManager} to load
translaters that perform the actual conversion. There are two types of
converters, encoders and decoders. Encoders are subclasses of
@code{gnu.java.io.encoder.Encoder}. This type of converter takes a Java
(Unicode) character stream or buffer and converts it to bytes using
a specified encoding scheme. Decoders are a subclass of
@code{gnu.java.io.decoder.Decoder}. This type of converter takes a
byte stream or buffer and converts it to Unicode characters. The
@code{Encoder} and @code{Decoder} classes are subclasses of
@code{Writer} and @code{Reader} respectively, and so can be used in
contexts that require character streams, but the Classpath implementation
currently does not make use of them in this fashion.
The @code{EncodingManager} class searches for requested encoders and
decoders by name. Since encoders and decoders are separate in Classpath,
it is possible to have a decoder without an encoder for a particular
encoding scheme, or vice versa. @code{EncodingManager} searches the
package path specified by the @code{file.encoding.pkg} property. The
name of the encoder or decoder is appended to the search path to
produce the required class name. Note that @code{EncodingManager} knows
about the default system encoding scheme, which it retrieves from the
system property @code{file.encoding}, and it will return the proper
translator for the default encoding if no scheme is specified. Also, the
Classpath standard translator library, which is the @code{gnu.java.io} package,
is automatically appended to the end of the path.
For efficiency, @code{EncodingManager} maintains a cache of translators
that it has loaded. This eliminates the need to search for a commonly
used translator each time it is requested.
Finally, @code{EncodingManager} supports aliasing of encoding scheme names.
For example, the ISO Latin-1 encoding scheme can be referred to as
''8859_1'' or ''ISO-8859-1''. @code{EncodingManager} searches for
aliases by looking for the existence of a system property called
@code{gnu.java.io.encoding_scheme_alias.<encoding name>}. If such a
property exists. The value of that property is assumed to be the
canonical name of the encoding scheme, and a translator with that name is
looked up instead of one with the original name.
Here is an example of how @code{EncodingManager} works. A class requests
a decoder for the ''UTF-8'' encoding scheme by calling
@code{EncodingManager.getDecoder("UTF-8")}. First, an alias is searched
for by looking for the system property
@code{gnu.java.io.encoding_scheme_alias.UTF-8}. In our example, this
property exists and has the value ''UTF8''. That is the actual
decoder that will be searched for. Next, @code{EncodingManager} looks
in its cache for this translator. Assuming it does not find it, it
searches the translator path, which is this example consists only of
the default @code{gnu.java.io}. The ''decoder'' package name is
appended since we are looking for a decoder. (''encoder'' would be
used if we were looking for an encoder). Then name name of the translator
is appended. So @code{EncodingManager} attempts to load a translator
class called @code{gnu.java.io.decoder.UTF8}. If that class is found,
an instance of it is returned. If it is not found, a
@code{UnsupportedEncodingException}.
To write a new translator, it is only necessary to subclass
@code{Encoder} and/or @code{Decoder}. Only a handful of abstract
methods need to be implemented. In general, no methods need to be
overridden. The needed methods calculate the number of bytes/chars
that the translation will generate, convert buffers to/from bytes,
and read/write a requested number of characters to/from a stream.
Many common encoding schemes use only eight bits to encode characters.
Writing a translator for these encodings is very easy. There are
abstract translator classes @code{gnu.java.io.decode.DecoderEightBitLookup}
and @code{gnu.java.io.encode.EncoderEightBitLookup}. These classes
implement all of the necessary methods. All that is necessary to
create a lookup table array that maps bytes to Unicode characters and
set the class variable @code{lookup_table} equal to it in a static
initializer. Also, a single constructor that takes an appropriate
stream as an argument must be supplied. These translators are
exceptionally easy to create and there are several of them supplied
in the Classpath distribution.
Writing multi-byte or variable-byte encodings is more difficult, but
often not especially challenging. The Classpath distribution ships with
translators for the UTF8 encoding scheme which uses from one to three
bytes to encode Unicode characters. This can serve as an example of
how to write such a translator.
Many more translators are needed. All major character encodings should
eventually be supported.
@node Localization, , Character Conversions, Top
@comment node-name, next, previous, up
@chapter Localization
There are many parts of the Java standard runtime library that must
be customized to the particular locale the program is being run in.
These include the parsing and display of dates, times, and numbers;
sorting words alphabetically; breaking sentences into words, etc.
In general, Classpath uses general classes for performing these tasks,
and customizes their behavior with configuration data specific to a
given locale.
@menu
* String Collation:: Sorting strings in different locales
* Break Iteration:: Breaking up text into words, sentences, and lines
* Date Formatting and Parsing:: Locale specific date handling
* Decimal/Currency Formatting and Parsing:: Local specific number handling
@end menu
In Classpath, all locale specific data is stored in a
@code{ListResourceBundle} class in the package @code{gnu/java/locale}.
The basename of the bundle is @code{LocaleInformation}. See the
documentation for the @code{java.util.ResourceBundle} class for details
on how the specific locale classes should be named.
@code{ListResourceBundle}'s are used instead of
@code{PropertyResourceBundle}'s because data more complex than simple
strings need to be provided to configure certain Classpath components.
Because @code{ListResourceBundle} allows an arbitrary Java object to
be associated with a given configuration option, it provides the
needed flexibility to accomodate Classpath's needs.
Each Java library component that can be localized requires that certain
configuration options be specified in the resource bundle for it. It is
important that each and every option be supplied for a specific
component or a critical runtime error will most likely result.
As a standard, each option should be assigned a name that is a string.
If the value is stored in a class or instance variable, then the option
should name should have the name name as the variable. Also, the value
associated with each option should be a Java object with the same name
as the option name (unless a simple scalar value is used). Here is an
example:
A class loads a value for the @code{format_string} variable from the
resource bundle in the specified locale. Here is the code in the
library class:
@example
ListResourceBundle lrb =
ListResourceBundle.getBundle ("gnu/java/locale/LocaleInformation", locale);
String format_string = lrb.getString ("format_string");
@end example
In the actual resource bundle class, here is how the configuration option
gets defined:
@example
/**
* This is the format string used for displaying values
*/
private static final String format_string = "%s %d %i";
private static final Object[][] contents =
@{
@{ "format_string", format_string @}
@};
@end example
Note that each variable should be @code{private}, @code{final}, and
@code{static}. Each variable should also have a description of what it
does as a documentation comment. The @code{getContents()} method returns
the @code{contents} array.
There are many functional areas of the standard class library that are
configured using this mechanism. A given locale does not need to support
each functional area. But if a functional area is supported, then all
of the specified entries for that area must be supplied. In order to
determine which functional areas are supported, there is a special key
that is queried by the affected class or classes. If this key exists,
and has a value that is a @code{Boolean} object wrappering the
@code{true} value, then full support is assumed. Otherwise it is
assumed that no support exists for this functional area. Every class
using resources for configuration must use this scheme and define a special
scheme that indicates the functional area is supported. Simply checking
for the resource bundle's existence is not sufficient to ensure that a
given functional area is supported.
The following sections define the functional areas that use resources
for locale specific configuration in GNU Classpath. Please refer to the
documentation for the classes mentioned for details on how these values
are used. You may also wish to look at the source file for
@file{gnu/java/locale/LocaleInformation_en} as an example.
@node String Collation, Break Iteration, Localization, Localization
@comment node-name, next, previous, up
@section String Collation
Collation involves the sorting of strings. The Java class library provides
a public class called @code{java.text.RuleBasedCollator} that performs
sorting based on a set of sorting rules.
@itemize @bullet
@item RuleBasedCollator - A @code{Boolean} wrappering @code{true} to indicate
that this functional area is supported.
@item collation_rules - The rules the specify how string collation is to
be performed.
@end itemize
Note that some languages might be too complex for @code{RuleBasedCollator}
to handle. In this case an entirely new class might need to be written in
lieu of defining this rule string.
@node Break Iteration, Date Formatting and Parsing, String Collation, Localization
@comment node-name, next, previous, up
@section Break Iteration
The class @code{java.text.BreakIterator} breaks text into words, sentences,
and lines. It is configured with the following resource bundle entries:
@itemize @bullet
@item BreakIterator - A @code{Boolean} wrappering @code{true} to indicate
that this functional area is supported.
@item word_breaks - A @code{String} array of word break character sequences.
@item sentence_breaks - A @code{String} array of sentence break character
sequences.
@item line_breaks - A @code{String} array of line break character sequences.
@end itemize
@node Date Formatting and Parsing, Decimal/Currency Formatting and Parsing, Break Iteration, Localization
@comment node-name, next, previous, up
@section Date Formatting and Parsing
Date formatting and parsing is handled by the
@code{java.text.SimpleDateFormat} class in most locales. This class is
configured by attaching an instance of the @code{java.text.DateFormatSymbols}
class. That class simply reads properties from our locale specific
resource bundle. The following items are required (refer to the
documentation of the @code{java.text.DateFormatSymbols} class for details
io what the actual values should be):
@itemize @bullet
@item DateFormatSymbols - A @code{Boolean} wrappering @code{true} to indicate
that this functional area is supported.
@item months - A @code{String} array of month names.
@item shortMonths - A @code{String} array of abbreviated month names.
@item weekdays - A @code{String} array of weekday names.
@item shortWeekdays - A @code{String} array of abbreviated weekday names.
@item ampms - A @code{String} array containing AM/PM names.
@item eras - A @code{String} array containing era (ie, BC/AD) names.
@item zoneStrings - An array of information about valid timezones for this
locale.
@item localPatternChars - A @code{String} defining date/time pattern symbols.
@item shortDateFormat - The format string for dates used by
@code{DateFormat.SHORT}
@item mediumDateFormat - The format string for dates used by
@code{DateFormat.MEDIUM}
@item longDateFormat - The format string for dates used by
@code{DateFormat.LONG}
@item fullDateFormat - The format string for dates used by
@code{DateFormat.FULL}
@item shortTimeFormat - The format string for times used by
@code{DateFormat.SHORT}
@item mediumTimeFormat - The format string for times used by
@code{DateFormat.MEDIUM}
@item longTimeFormat - The format string for times used by
@code{DateFormat.LONG}
@item fullTimeFormat - The format string for times used by
@code{DateFormat.FULL}
@end itemize
Note that it may not be possible to use this mechanism for all locales.
In those cases a special purpose class may need to be written to handle
date/time processing.
@node Decimal/Currency Formatting and Parsing, , Date Formatting and Parsing, Localization
@comment node-name, next, previous, up
@section Decimal/Currency Formatting and Parsing
@code{NumberFormat} is an abstract class for formatting and parsing numbers.
The class @code{DecimalFormat} provides a concrete subclass that handles
this is in a locale independent manner. As with @code{SimpleDateFormat},
this class gets information on how to format numbers from a class that
wrappers a collection of locale specific formatting values. In this case,
the class is @code{DecimalFormatSymbols}. That class reads its default
values for a locale from the resource bundle. The required entries are:
@itemize @bullet
@item DecimalFormatSymbols - A @code{Boolean} wrappering @code{true} to
indicate that this functional area is supported.
@item currencySymbol - The string representing the local currency.
@item intlCurrencySymbol - The string representing the local currency in an
international context.
@item decimalSeparator - The character to use as the decimal point as a
@code{String}.
@item digit - The character used to represent digits in a format string,
as a @code{String}.
@item exponential - The char used to represent the exponent separator of a
number written in scientific notation, as a @code{String}.
@item groupingSeparator - The character used to separate groups of numbers
in a large number, such as the ``,'' separator for thousands in the US, as
a @code{String}.
@item infinity - The string representing infinity.
@item NaN - The string representing the Java not a number value.
@item minusSign - The character representing the negative sign, as a
@code{String}.
@item monetarySeparator - The decimal point used in currency values, as a
@code{String}.
@item patternSeparator - The character used to separate positive and
negative format patterns, as a @code{String}.
@item percent - The percent sign, as a @code{String}.
@item perMill - The per mille sign, as a @code{String}.
@item zeroDigit - The character representing the digit zero, as a @code{String}.
@end itemize
Note that several of these values are an individual character. These should
be wrappered in a @code{String} at character position 0, not in a
@code{Character} object.
@bye
|