Building OpenOffice.org 1.1.x under Linux under Solaris under Windows with tcsh under Windows with 4NT
Beware! The build instructions for OpenOffice.org 2.x are different!
The Cygwin tcsh environment is new (from December 2003), and can be used starting with cws_srx644_ooo20030412.
This document describes the requirements and actions that you need to build
OpenOffice.org on
Commands you have to type on the keyboard follow this syntax throughout this document:
config_office> ./configure
In this example, the script configure is executed
in the directory config_office.
D:\my\source> winenv.bat
In this example, the script winenv.bat is executed in the directory
D:\my\source under a 4NT shell. Unless stated otherwise, all commands
appearing in this document should be entered from a 4NT shell (the exception
is the configure script which has to be run from a cygwin bash shell).
$SRC_ROOT will denote the directory in which the source code
of OpenOffice.org is stored.
Basically, there is the choice to build OpenOffice.org from two different branches: a stable branch, which results in the release version, or a less stable developer branch (latest release see here). Links to the different sources are given in the document.
Table of Contents
- Overview
- Build Requirements
- Build Instructions
- Instructions to Build an Installation Set
- Building Localised Versions of OpenOffice.org
Overview
This section is meant as a reminder or checklist for those who have some experience in building OpenOffice.org. Everybody else should jump to the Build Requirements section.
Even experienced builders are well advised to check the release notes at http://download.openoffice.org/index.html and the section Build Requirements in this document to inform yourself about changes since the previous releases.
Detailed step-by-step build descriptions are given from the next section on.
You can perform a full build, or you can build an individual project using a prebuilt version.
Overview of Performing a Full Build
To perform a full build, you need to follow these steps:
- Get the source code, either from the download webpage (http://download.openoffice.org/index.html) or alternatively via a check-out from the cvs tree against a release tag, e.g. OpenOffice_1_1_4.
- Run the
configurescript to check all requirements and to create the script - Run the
configurescript in a cygwin bash shell to check all requirements and to create the scriptwinenv.bat. - Run the
LinuxIntelEnv.SetSolarisSparcEnv.Setwinenv.setwinenv.bat(under 4NT)Please see the last screen from the configure script for more specific information on setting up for your platform.
- Create the build tools using
bootstrap. - Build typing
dmakein$SRC_ROOT, orbuild --allin theinstsetoomodule, orbuildfollowed bydeliverin the individual modules.
LinuxIntelEnv.Set.SolarisSparcEnv.Set.winenv.set.Overview of Building an Individual Project
You can use a prebuilt version to build an individual project. Having a prebuilt version is necessary because the individual project you want to build could depend on other projects. A project builds a particular component of OpenOffice.org. For example, the Word Processing project builds the Word Processing application. To build an individual project, you must follow these steps:
- Download the appropriate solver tarballs from the download webpage
(http://download.openoffice.org/index.html)
e.g., for 643B the solver tarball
solver643B_linux_intel.tar.gz.solver643B_solaris_sparc.tar.gz.solver643B_win32intel.tar.gz.solver643B_win32intel.tar.gz.643 is a very old release. Please use the latest version.
- Check out the modules for the project that you want to build from the
OpenOffice.org cvs tree. If your project uses the resources module,
res, check out this module also. You can, of course, also download the entire source from the download webpage (http://download.openoffice.org/index.html). However, it is not possible to download individual modules there. - Check out the module
config_office. This is always necessary to create the build environment. - Also check out the modules
dmake, external, sal, solenv, soltools, vos, tools, rsc and xml2cmp.These are required by bootstrap(see below). - Unpack the solver tarball in the
$SRC_ROOTdirectory. - Run the
configurescript to check all requirements and to create the settings file - Run the
configurescript in a cygwin bash shell to check all requirements and to create the scriptwinenv.bat.Note that all paths should NOT contain spaces. This will confuse dmake later.
- Run
in tcsh source LinuxIntelEnv.Setor in bashsource LinuxIntelEnv.Set.shin tcsh source SolarisSparcEnv.Setor in bashsource SolarisSparcEnv.Set.shin tcsh source winenv.setandrehashafterwards or in bashsource winenv.set.shwinenv.bat - Create the build tools using
./bootstrap. - Build each module against the prebuilt
solverusing thebuildtool, followed bydeliver.
LinuxIntelEnv.Set.SolarisSparcEnv.Set.winenv.set.Build Requirements
Before you start building, you must ensure that your system satisfies the
recommended software and hardware requirements for the type of system you
are working on. For
-
glibc2.1.x or higher -
gcc:OpenOffice.org has been successfully build under Linux using the gcc versions 3.0.x, 3.1.1, 3.2.x, and 3.3.x. Older versions were built with gcc 2.95.2, 2.95 support is not maintained for current branches however. Version 2.96 does not work! -
The X11 development libraries and header files should be installed.
Should be in place with most Linux distributions.
Note the there are currently some issues with X version 4.3.
- PAM (should come with most Linux distributions). You must install the development package for your distribution.
-
JDK 1.3.1 or
JDK 1.4.1
(note you need the SDK, not just the JRE).
JDK 1.4.2 is not supported for versions prior to OpenOffice.org 1.1.1, see issue 16626. - If you are building with JDK 1.3.1, you need to download crimson.jar from http://xml.apache.org/crimson/ and xalan.jar and xml-apis.jar from http://xml.apache.org/xalan-j/index.html and add these to the compilation classpath
- Perl 5
-
cshNote that you can start a build in bash however all the scripts in the build system are actually csh scripts. -
zipandunzip -
The gpc general polygon clipper library release 2.31, located at
http://www.cs.man.ac.uk/aig/staff/alan/software/.
Download and unpack the tarball. You should have
the files gpc.c and gpc.h in
$SRC_ROOT/external/gpc. - GTK - If you enable the crash reporter in configure then you need the gtk 2, jpeg and tiff development libraries.
- Ant Is required to build some features. This is a Java Make utility.
Software Requirements
- Solaris 2.8 or 2.9
- Solaris compiler Forte C++ 6 update 1, Forte C++ 6 update 2 or Forte C++ 7
-
JDK 1.3.1 or
JDK 1.4.1
(note you need the SDK)
JDK 1.4.2 is not supported for versions prior to OpenOffice.org 1.1.1, see issue 16626. - If you are building with JDK 1.3.1, you need to download crimson.jar from http://xml.apache.org/crimson/ and xalan.jar and xml-apis.jar from http://xml.apache.org/xalan-j/index.html and add these to the compilation classpath.
- Perl 5
-
tcshNote that you can start a build in bash however all the scripts in the build system are actually csh scripts. -
zipandunzip - GNU patch and cp, GNU tar recommended
-
The gpc general polygon clipper library release 2.31, located at
http://www.cs.man.ac.uk/aig/staff/alan/software/.
Download and unpack the tarball. You should have
the files gpc.c and gpc.h in
$SRC_ROOT/external/gpc. - Ant Is required to build some features. This is a Java Make utility.
Build Requirements
- General
- Windows NT Version 4 Service Pack 3 or higher, Windows 2000 SP 2 or higher or Windows XP.
-
A Microsoft Visual C++ Compiler. MS Visual C++ .net 2002 is recommended,
but MS Visual C++ Version 6 Service Pack 5 or 6 can also be used. Please note that
it is deprecated and no longer usable for the forthcoming 2.0 (680er codeline)
version of Openoffice.org and see also
iz21646 for
a known problem with this compiler.
Below you find a list with additional requirements that have to be fulfilled for the different compilers.Extra requirements for MS Visual C++ .net 2002:
- Install the ConvertDSW (wdevenv) utility. Get it from http://tools.openoffice.org/source/browse/tools/contrib/addin/bin/ and follow the instructions of the Readme.sxw in that directory.
- A Microsoft Assembly compiler.
It is included in .NET 2002, it can be found in the same directory as the
compiler (
cl.exe). Look forML.EXE. If you use the--with-cl-home=configure option you also have to use the--with-asm-home=option pointing to the directory with theML.EXE. -
Copy msvcp70.dll and msvcr70.dll to
$SRC_ROOT\external\msvcp70\. These dlls are part of the .NET installation and can be found in a directory similar to:c:\Program Files\Microsoft Visual Studio .NET\Visual C++ .NET Professional - English\.
Extra requirements for MS Visual C++ 6 SP5 or SP6:
-
A Microsoft Assembly compiler. It can be found in the
Windows 98 Driver Developer Kit.
Additional instructions can be found at:
http://www2.dgsys.com/~raymoon/faq/masm.html#9.
PlaceML.EXEandML.ERRsomewhere in a directory in the system path or use the configure option--with-asm-home=pointing to this location.
Warning! Do not use the Processor Pack for Visual Studio 6.0, it is proven to break the build. -
Use
midl.exeandmidlc.exefrom the platform SDK. It has been reported in iz21023 that the versions that come with MS Visual C++ 6 do not work properly.
-
Parts of the February 2003 version of the Microsoft Platform SDK. The MDAC SDK,
the Core SDK and the Internet Development SDK have to be installed on your build system.
You can download them from
http://www.microsoft.com/msdownload/platformsdk/sdkupdate.
Important Note 1: Please ensure that you also select Build environment (Intel 64-bit) where available, when downloading the Platform SDK.
Important Note 2: Please ensure that the path to the 4NT application
directory doesn't contain one or more spaces. No, not even
c:\Program Files\4NT\. In this case uninstall and re-install
to a directory without spaces.
Important Note 3: Before you use 4NT, you must ensure that the initialisation
file 4nt.ini is present in the 4NT application directory (This means you
propably have to create it.). The following code sample shows the content of the
4nt.ini file:
[4NT] CommandSep = ^ EscapeChar = Ctrl-X ParameterChar = & LocalAliases = Yes
Important Note 4: If you use 4NT 5.x and want to build OpenOffice.org 1.1
(OOo_1.1.0_source.tar.bz2 or OOo_1.1.0_source.tar.gz) please ensure that
you replace the file: python\convert.bat with
this
version. This is not necessary for newer source versions.
Important Note 5: JDK 1.4.1 is proven to work, but JDK 1.4.2 is not supported for versions prior to OpenOffice.org 1.1.1, see issue 16626.
When installing Cygwin make sure you set the "Default Text File Type" to "Unix". This is the default setting.
Not all Cygwin packages are needed to build OpenOffice.org, but make sure that at least all the packages from the base category and the following packages are installed.
flex
make
patch
perl
And also:
rxvt
tcsh
unzip
zip
Important Note 6: Within the Cygwin Toolkit, three executables might be realised as symlinks, namely awk.exe, gunzip.exe and tar.exe. This might lead to a break of the build later, and the symlinks should be replaced with copies of the command they link to. Check, in a cygwin shell, with ls -l /bin/awk.exe whether awk.exe is a symlink. For instance, awk.exe could be a link to gawk.exe, in which case you should copy gawk.exe to awk.exe: cd /bin; cp gawk.exe awk.exe. Take similar action for unzip.exe and tar.exe.
Important Note 7:
If your cygwin installation includes the XFree86 packages make sure to
remove/change the /etc/profile.d/00XFree86-bin.csh file. See
iz26833.
Important Note 8: Don't use Cygwin 1.5.7, there were some problems with this version. Upgrade to a newer release.
zip.exe Version 2.2 or higher, and unzip.exe.
If you do not have these already, you can download them from
www.info-zip.org.
Note: The cygwin zip.exe is not working for the build under the 4NT shell.
You have to use the native w32 version.
Make sure that the first zip.exe in your path is the native w32
version, e.g. rename or delete the zip.exe in your cygwin /bin directory and
copy the InfoZip version to this place.
$SRC_ROOT/external/gpc.
$SRC_ROOT/external/unicows.
(Note: Microsoft seems to enjoy changing the exact location of this file.
You may have to search Microsoft's website.) Last time it was seen
here.
$SRC_ROOT/external/dbghelp.
(Note: You may have to search Microsoft's website.) Last time it was seen
here.
Perl - Optional requirements
For committers who want to use the CWS tooling. Install them like this.
| Module: | Used for: |
| Crypt::SSLeay | for SSL encrypted SOAP connections |
| SOAP::Lite | access the SOAP based CWS webservice |
- Intel Pentium II (P4 recommended)
- 256 MB RAM (Much more recommended)
- 4 Gb free disk space, add approximately 2 Gb to build with --with-lang=ALL option. Approximately 8 Gb with full crash report enabled, --enable-crashdump.
-
For Solaris/x86: Intel Pentium II PC (P4 recommended)
For Solaris/Sparc: Ultrasparc 3 / 3i - 512 MB RAM
- 4 GB free disk space
- Intel Pentium II PC
- 128 MB RAM (More recommended)
- 4 GB free disk space (8 GB for crashdump)
External Components
The code contains some further external components which are already provided. If you are interested in details about these, look at the External Components webpage at http://tools.openoffice.org/ext_comp.html.
Get the source code
You have two options to get the source code:
-
Download the source code tarball
(http://download.openoffice.org/index.html),
e.g.
oo_643B_src.tar.gzin case of the 643B release.Unpack the tarballs as follows (for the 643B example):
> tar -xvzf oo_643B_src.tar.gz > cd oo_643B_src
This will be $SRC_ROOT from now on.
-
Another possibility is to check out the code from the cvs tree.
If you don't have a username and password, you can still do a checkout as
anoncvs:> cvs -d:pserver:anoncvs@anoncvs.services.openoffice.org:/cvs login
The non-bold slash means that the command should be in one line. It is possible to update an already existing older copy to a newer release:Just press enter when prompted for the password.
> cd $SRC_ROOT $SRC_ROOT> cvs / -d:pserver:anoncvs@anoncvs.services.openoffice.org:/cvs / co -r OpenOffice_1_1_4 OpenOffice$SRC_ROOT> cvs / -d:pserver:anoncvs@anoncvs.services.openoffice.org:/cvs / update -r OpenOffice_1_1_4 OpenOffice -
If you're only interested in building individual modules, you won't need
the entire source code. You can check out individual modules from the cvs
tree:
$SRC_ROOT> cvs / -d:pserver:anoncvs@anoncvs.services.openoffice.org:/cvs / co -r OpenOffice_1_1_4 (module-name) -
A note on the tags (i.e. the argument to the -r option in the cvs commands listed above): If HEAD is used as a tag, you will get the newest latest source code. This, however, will most likely not build since development is going on there. See http://tools.openoffice.org#CWS for a description of the development process with child workspaces and Environment Information System for the current child workspaces and milestones.
Generating the Build Environment and Build Tools
You use the configure script to generate the build environment.
The configure script checks that all software, hardware, and
system requirements for the build are satisfied, and it creates a
configuration file called
LinuxIntelEnv.SetSolarisSparcEnv.Setwinenv.setsource command on to set all necessary
build environment variables. Don't forget to run rehash afterwards.
Ideally, in keeping with the principles of open source, you would use an open source shell to build on a computer running a Win32 operating system. However, you decided to use a non-open source shell to build on a computer running a Win32 operating system: the 4NT command shell.
On the other hand, the bash shell from the cygwin tools is needed to run
the configure script which generates the build environment. The
configure script checks that all software, hardware, and system
requirements for the build are satisfied, and it creates a configuration file
called winenv.bat that you then execute to set all necessary
build environment variables. We demonstrate a sample run below.
This configuration file will be moved into the
If you are running a compiler with a non-standard name or location.
To run the
Before running configure, make sure that all needed Programs are in the system path
or start configure with the appropriate command line switches.
The following should demonstrate in detail what steps have to be done to
set up the environment. For this examples we assume that
To run the
There are a number of options that you can use with the
The following should demonstrate in detail what steps have to be done to
set up the environment:
Run the configure script according to the following example. We
assume here that
Running the configure script could then look like the following (bold typed
text is what you enter):
Note the change in pathname notation. Since the cygwin bash
shell won't accept backslashes, paths have to be typed in a
cygwin bash notation which is
There are a number of further options that you can use with the
After running Don't forget to run
afterwards. See the last screen from configure for exact details for your platform.
After running SRC_ROOT directory.
A top-level makefile script makefile.mk bootstrap in the config-office directory SRC_ROOT as well. This is due to technical reasons:
The SRC_ROOT directory in the cvs tree can only hold directories.
On the other hand, the top-level makefile.mk should logically be
placed in the top-level directory SRC_ROOT. The cvs tree holds
these files in config_office and configure copies
them up.
CC=/your/path/to/gcc
CXX=/your/path/to/g++
export CC CXX
CC=/your/path/to/cc
CXX=/your/path/to/CC
export CC CXX
configure script, type the following command:
$SRC_ROOT> cd config_office
config_office> ./configure
C:\oo643B
C:\j2sdk1.4.1_02
C:\PROGRA~1\MICROS~3\VC98
(or C:\program files\microsoft visual studio\vc98)
C:\PROGRA~1\MICROS~5
C:\ml
tcsh - Example
You have to enable the use of tcsh
with --with-use-shell=tcsh.
configure script, type the following command:
$SRC_ROOT> cd config_office
config_office> ./configure --with-cl-home="/cygdrive/c/Programme/Microsoft Visual Studio .NET 2003/Vc7"
--with-asm-home=/cygdrive/c/ml --with-jdk-home=/cygdrive/c/j2sdk1.4.1_02
--with-use-shell=tcsh
configure
script. To display these options, type the following command:
config_office> ./configure --help
--with-use-shell=4nt
You should exit the bash shell. Now you can run the environment
settings file
C:\oo643B
C:\j2sdk1.4.1_02
C:\PROGRA~1\MICROS~3\VC98
(or C:\program files\microsoft visual studio\vc98)
C:\PROGRA~1\MICROS~5
C:\ml
C:\unzip
(open a cygwin bash shell)
cd /cygdrive/c/oo643B/config_office
./configure --with-cl-home=/cygdrive/c/PROGRA~1/MICROS~3/VC98 --with-asm-home=/cygdrive/c/ml --with-jdk-home=/cygdrive/c/j2sdk1.4.1_02 --with-unzip-home=/cygdrive/c/unzip
.
.
.
(some screen output here)
.
.
.
(more screen output here)
bash-2.02$ exit
winenv.bat from your 4NT shell.
/cygdrive/c/path/to/file,
instead of C:\path\to\file. This may appear
confusing at the moment, but sticking to this notation will
work.
configure script. To display these options, type
the following command:
config_office> bash configure --help
configure, you have to source the configuration
file which sets all environment variables:
$SRC_ROOT> tcsh
$SRC_ROOT> rehash
configure you have to execute the
configuration file which sets all environment variables. The generated
file is called winenv.bat.
If you experiment with newest sources from the cvs-tree, mind that updates
to the configure process may not happen via updates of configure
(the script file) but via the files configure.in and
set_soenv.in. The configure script itself is created from
configure.in using the
autoreconf command. The perl script set_soenv is created when you
run configure from set_soenv.in.
If you need to modify or create a correct configure you would run commands
like the following:
To create the build tools, type the following command:
The
$SRC_ROOT> cd config_office
config_office> cvs update configure.in
config_office> autoreconf
$SRC_ROOT> cd config_office
config_office> cvs update configure.in
get a bash shell
config_office>bash autoconf
exit the bash shell
configure script. If you only use code from the
snapshot releases on the web, you don't need to be concerned about this.
$SRC_ROOT> ./bootstrap
bootstrap utility creates the tools required for building.
This involves already building some modules and will take a few minutes.
Build Instructions
Building a Full Build of the Office Suite
Now you are ready to build OpenOffice.org. To build the entire suite, all you have to do (after having created the environment as described above) is to run dmake from the top-level directory. This may take several hours.$SRC_ROOT> dmake
To clean up a previous build you can delete all output directories with
rm -rf */unxlngi4.pro
If you decide to rebuild a module or build each module individually (mind
dependencies!), you will have to use the build tool. A subsequent
deliver will copy all created binaries, libraries etc. into the
solver tree:
$SRC_ROOT/(module)> build $SRC_ROOT/(module)> deliver
The following table shows the time required to build on a system with a particular specification. You can use these details to estimate the time required to build on your system.
| Architecture | Intel |
| Processor | Pentium III |
| Processor speed | 600 MHz |
| RAM | 256 MB |
| Hard disk | 4 GB IDE |
| Time (for 1.x series) | ~12 h |
Note that using ccache can reduce your compile times and dramatically reduce recompile times.
| Architecture | SPARC |
| Model | Ultra 30 |
| Processor speed | 300 MHz |
| RAM | 512 MB |
| Hard disk | 10000 RPM model |
| Time (for SRC680_m74) | ~39 h |
| Architecture | Intel |
| Processor | Pentium III |
| Processor speed | 600 MHz |
| RAM | 256 MB |
| Hard Disk | 6 GB SCSI |
| Time | ~10 h |
Building Individual Projects with a Prebuilt
OpenOffice.org is organised in several projects. For example, the Word Processing Project. These in turn consist of several modules, organised in separate directories. The source contains approximately 90 modules.
You can build any project or module individually. Building modules
individually should not be misunderstood as reducing OpenOffice.org to a
special application, say, for instance, the spreadsheet application. The
program will always consist of the entire office suite: text processor,
spreadsheet, drawing application, etc. Building individual
modules comes in handy if you want to develop on a certain module.
Most modules will depend on other modules to be already built.
In other words, all modules must build in a particular order. To avoid
building all modules which are prerequisites of the module of your
interest, you can make use of a prebuilt solver tree against
which you can build any module.
For more information on modules and on the sequence that they build in, and on the dependencies, see tools.openoffice.org/modules.html.
You have to download the solver tree as a tarball. For example
solver643B_linux_intel.tar.gzsolver643B_solaris_sparc.tar.gzsolver643B_win32int.tar.gzsolver643B_win32int.tar.gz$SRC_ROOT directory, e.g.:
$SRC_ROOT> tar -xzvf solver643B_linux_intel.tar.gz $SRC_ROOT> gunzip solver643B_solaris_sparc.tar.gz $SRC_ROOT> tar -xvf solver643B_solaris_sparc.tar $SRC_ROOT> tar -xvzf solver643B_win32int.tar.gz
config_office, dmake, external,
xml2cmp, mkdepend, sal, solenv, vos, tools and rscpp.
config_office module and solenv.
To build a project, you build each of its modules individually in their
directory with the build tool, followed by deliver
to copy the created libraries, binaries etc. into the solver tree:
$SRC_ROOT/(module-name)> build $SRC_ROOT/(module-name)> deliverFiles called
build.lst in the directories
(module-name)/prj contain all information about the
subdirectories to be build (each of them containing makefiles
makefile.mk), about internal dependencies, and also about
modules the current module depends on. The files
(module-name)/prj/d.lst control the actions done by
deliver. The last or second to last directory to be build is
usually module-name/util which is responsible for
linking one or more shared libraries.
Building a Project with Debug Information
To rebuild a complete project with debug information, remove all object
files by removing the
unxlngi4.prounxsols3.prowntmsci9.probuild with the debug option set to true:
$SRC_ROOT/(module)> rm -rfunxlngi4.pro unxsols3.pro wntmsci9.pro $SRC_ROOT/(module)> build debug=true
Instructions to Build an Installation Set
The build process (started with a top-level dmake or
build --all in $SRC_ROOT/instsetoo) will create
installation sets in English and German.
A simple build in
$SRC_ROOT/instsetoo will also create the installation sets,
provided all other modules are already built.
If you have built an installation set earlier and want to re-build it, please delete the local outpath first:
$SRC_ROOT/instsetoo> rm -rfunxlngi4.pro unxsols3.pro wntmsci9.pro
The English installation set will be located at
$SRC_ROOT/instsetoo/.
Execute the setup binary to install:
$SRC_ROOT> cd instsetoo/The 01 in the path names indicates that the localisation is American English. This number corresponds to the international phone code for the USA. The German installation set will be located in a subdirectory 49. This scheme holds true for all localisations you may have chosen explicitly (see next section Building Localised Versions of OpenOffice.org).unxlngi4.pro unxsols3.pro wntmsci9.pro /01/normalnormal> ./setup normal> setup.exe
For a network installation, use the -net option to
setup. Details on the network installation process
can be found at
http://installation.openoffice.org/proposals/netinstall.html
in the installation project webpage.
For information on creating an automated installation script and create a response file.
Building Localised Versions of OpenOffice.org
Running the configure script with the --with-lang option will introduce the build
of additional language resources. This option will introduce a command in the
environment settings file which in turn after execution sets a variable like, for instance,
RES_FREN to TRUE in the case of french (You can also set
this variable by hand in order to introduce another language). It is also possible to
build more than one language at once.
One language resource, however, will not be
introduced that way: the help content! Clicking on 'help' would still open English
help documents.
There is no automatic procedure yet to implement non-English help, but the additional manual effort is rather minimal: After building the source as described above, but before building the installation set, a zip-file with all help-content for the language of choice has to be unzipped into the directory
$SRC_ROOT/solver/641/unxlngi4.pro/pck.$SRC_ROOT/solver/641/unxsols3.pro/pck.$SRC_ROOT/solver/641/wntmsci9.pro/pck.
The filenames of these files contain a number code for the language, corresponding to
the international phone code of a country in which that language is mainly spoken.
For instance, the file
contains all help content for the Spanish localisation.
The zipfiles themselves are available at
ftp.services.openoffice.org/pub/OpenOffice.org/contrib/helpcontent/.
Having unzipped the helpcontent files in there, building of installation sets can be resumed or repeated (in case you already have build some), as described in the previous chapter. English installation sets will be located in
$SRC_ROOT/instsetoo/unxlngi4.pro unxsols3.pro wntmsci9.pro /01/normal,
where 01 corresponds to the international phone code of the USA.
If you have chosen, for instance, French (by configuring with the --with-lang=FREN option)
you will find an additional directory called 33:
$SRC_ROOT/instsetoo/unxlngi4.pro unxsols3.pro wntmsci9.pro /33/normal.
Similarly, you will find 49 for German, 34 for Spanish, etc.
Localised help content is not yet available for all languages. In such cases, the English helpcontent will appear in the installations. For instance, when Danish is set with configure, you will find installation sets under the directory 45, but the help files will appear in English.
