Dr. Werner Fink
WernerFink
Involved Projects and Packages
The psmisc package contains utilities for managing processes on your
system: pstree, killall and fuser. The pstree command displays a tree
structure of all of the running processes on your system. The killall
command sends a specified signal (SIGTERM if nothing is specified) to
processes identified by name. The fuser command identifies the PIDs of
processes that are using specified files or filesystems.
This archive contains utilities for manipulating PostScript documents.
Page selection and rearrangement are supported, including arrangement
into signatures for booklet printing, and page merging for n-up
printing.
psbook rearranges pages into signatures
psselect selects pages and page ranges
pstops performs general page rearrangement and selection
psnup put multiple pages per physical sheet of paper
psresize alter document paper size
epsffit fits an EPSF file to a given bounding box
You will find a README in /usr/share/doc/packages/psutils/ which also
describes several Perl scripts for importing PostScript files. A manual
page for each ps utility is also included.
This package contains the python binding that require the magic "file"
interface.
The "Unix System Administration Handbook" calls sendmail "The most
complex and complete mail delivery system in common use..." .
Ready-made configuration files are included for systems connected by
TCP/IP (with or without a name server) and for systems using UUCP.
'procmail' is used as a local mail agent.
"sendmail" is a trademark of Sendmail, Inc.
su-wrapper is a little utility that allows special users to execute
processes under another uid and gid.
It uses a table (/etc/su-wrapper.conf) to decide whatto do in certain
situation. Therefore it walks through the table and tries to match the
current situation (the later entries have precedence).
For more information, read /usr/share/doc/packages/su-wrapper/README.
The syslogd daemon is the general system logging daemon, which is
responsible for handling requests for syslog services.
This version of syslogd is similar to the standard Berkeley product,
but with a number of compatible extensions.
System V style init programs by Miquel van Smoorenburg that control the
booting and shutdown of your system. These support a number of system
runlevels, each one associated with a specific set of utilities. For
example, the normal system runlevel is 3, which starts a getty on
virtual consoles tty1-tty6. Runlevel 5 starts xdm. Runlevel 0 shuts
down the system. See the individual man pages for inittab, initscript,
halt, init, powerd, reboot, runlevel, shutdown, and telinit for
more information.
Tcsh is an enhanced, but completely compatible, version of the Berkeley
UNIX C shell, csh(1). It is a command language interpreter usable as an
interactive login shell and a shell script command processor. It
includes a command-line editor, programmable word completion, spelling
correction, a history mechanism, job control, and a C-like syntax.
The termcap library.
Texinfo is a documentation system that uses a single source file to
produce both online information and printed output. Using Texinfo, you
can create a printed document with the normal features of a book,
including chapters, sections, cross-references, and indices. From the
same Texinfo source file, you can create a menu-driven, online info
file with nodes, menus, cross-references, and indices using the included
makeinfo tool.
Aggregated with texinfo in this package is texi2html and texi2roff.
After installing texlive and the package texlive-latex, find a large selection of documentation for TeX, LaTeX, and various layout styles in /usr/share/texmf/doc.
TeX (pronounced tech) is an interpreter for text formatting and was developed by Donald E. Knuth. It works with control and macro commands on a text file. Working with TeX is similar to typesetting methods. LaTeX is a complex macro package that removes the cryptical TeX interface and does most of the work for the user.
TeX uses special fonts produced by the MetaFont program. Various printer drivers and an X11 viewer are also included in this package. The teTeX package is based on the standard TeX package of Karl Berry, which makes configuration much easier. It is also possible to use PostScript fonts. A real PostScript printer is required, however. If the ghostscript (gs) package is installed, all drivers for printing and viewing can use these fonts. Note, however, that the fonts included in the ghostscript package are not identical to Adobe's PostScript fonts. The copyright prohibids us to include them on the CD.
Besides these features, the programs MakeIndex (for producing indexes) and BibTeX (for literature data processing) exist.
The texlive package includes a full texmf tree, many programs like tex, dvips, etc., shell script configuration, and a big collection of documentations. This package is easily configured by the script texconfig and has multilanguage options.
The basic file system layout for TeX Live installation.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.
Here one rpm spec file `texlive-specs.spec' is used for repackaging the several texmf/texmf-dist tarballs of TeX Live into their own rpms. This is done with the help of more than 2200 spec files generate by the
`generate' perl script of the package `Meta' in the same project and packed in the tarball `texlive-specs.tar.xz'.