Tuptime is a tool that reports historical and statistical running time of
the system, keeping it between restarts. Like uptime(1) command but with
more interesting output.
hfm is an application to run tests in parallel at a high frequency.
If the outcome of the test results in a state change, other commands
can be executed.
It is designed to be a general purpose, loosely-coupled tool, by
having both the tests and the state change commands be executed by
the operating system. For example, one could write the test in
shell or c, and have it called through the exec facility.
In practice, the overhead of spawning a new process per test limits
frequency that can be achieved by the tests, and their results.
Anecdotally, 5ms intervals have been seen to be achievable.
An example application is to poll other network services for health,
and to take actions based on their health status changes.
This is the table based input method framework for IBus (Intelligent Input
Bus). It does not include real tables except two demo layouts, "Compose"
(which mimics Compose Key input) and "LaTeX" (which allows you to use LaTeX
commands as keyboard sequences to input various symbols).
Java2html is a syntax highlighter for Java and C++ source code that
produces a highlighted html file as output.
Java2html offers the following features:
- support for Java and C++
- fast (single pass conversion using flex)
- doesn't change formatting - only adds <FONT COLOR=#XXXX> tags
and properly escapes non-ascii characters
- easy integration with webservers - browse your sources colourized
- gzips http output for browsers to save bandwidth (only in CGI mode)
- documentation and manpage included
This keyboard is designed to enable simple input in all European
languages which use Latin-script, and in most Latin-script languages
from the rest of the world.
The keyboard is written in KMN Keyboard Language by the KMN language
developer, Tavultesoft (http://www.tavultesoft.com). The keyboard
uses punctuation and letter keys in sequence to access diacritic and
other letters.
This port installs the keyboard so that it can be used through SCIM or
IBus KMFL IMEngine (textproc/scim-kmfl-imengine, textproc/ibus-kmfl).
It currently covers 120 languages including: Afrikaans, Albanian,
Balearic, Basque, Breton, Catalan, Croatian, Czech, Danish, Dutch,
Esperanto, Estonian, Faroese, Finnish, French, Gaelic, Galician,
German, Hungarian, Icelandic, Inuktitut, Italian, Kashubian, Ladin,
Latvian, Lithuanian, Maltese, Norwegian, Nynorsk, Polish, Portugese,
Romansch, Saami, Serbian, Slovak, Slovenian, Sorbian, Spanish,
Swedish, Tagalog, Turkish, Valencian, Vlaams, Walloon, Welsh and Zulu.
The keyboard is distributed under the terms of 3-clause BSD-licence.
This is a keyboard for input of the complex Biblical Hebrew (including
cantillation marks) with Unicode fonts. It is written in Keyman keyboard
language and developed by SIL Non-Roman Script Initiative (NRSI).
This port installs the keyboard so that it can be used through SCIM or
IBus KMFL IMEngine (textproc/scim-kmfl-imengine, textproc/ibus-kmfl).
The keyboard is provided under the terms of MIT/X11 License.
http://scripts.sil.org/SILHebrUni_Documentation
This is a keyboard for typesetting Ancient Greek with precomposed Unicode
characters. It is written in Keyman Keyboard Language by SIL Non-Roman Script
Initiative (NRSI).
This port installs the keyboard so that it can be used through SCIM or
IBus KMFL IMEngine (textproc/scim-kmfl-imengine, textproc/ibus-kmfl).
The main purpose of the keyboards is to provide a wide range of keying options,
so many characters can be entered in multiple ways. The features include:
* preserving the context when deleting;
* choosing the correct code for the sigma depending upon the encoding and
the context (so the correct final form is used when appropriate);
* understanding the context of gamma so that it can be typed as 'n' before
kappa, xi or chi and as 'ng' before another gamma.
* support for Greek punctuation.
This is mnemonic keyboard that covers entire IPA (International
Phonetic Alphabet) Unicode 5 range, written in Keyman keyboard
language. The keyboard is developed by SIL Non-Roman Script Initiative
(NRSI).
This port installs the keyboard so that it can be used through SCIM or
IBus KMFL IMEngine (textproc/scim-kmfl-imengine, textproc/ibus-kmfl).
This keyboard is provided under SIL International X11-style License
(http://scripts.sil.org/X11License).
This is a set of two keyboards that provides a single implementation for many
Roman writing systems across Africa, based on results compiled from data from
Benin, Burkina Faso, Cameroon, Chad, Cote d'Ivoire, Nigeria, Senegal and Togo.
The keyboards are written in Keyman keyboard language and developed by SIL
Non-Roman Script Initiative (NRSI). The software is distributed under the
X11-style license (http://scripts.sil.org/X11License).
This port installs the keyboard so that it can be used through SCIM or
IBus KMFL IMEngine (textproc/scim-kmfl-imengine, textproc/ibus-kmfl).
Two layouts are provided:
* mnemonic layout for any keyboard (using deadkeys);
* positional layout for US keyboard (using deadkeys and/or shift-states, i.e.
RALT and LALT keys).
This is a keyboard for input of the standardized Yi script of southwestern
China with Unicode Yi fonts. It is written in Keyman keyboard language and
developed by SIL Non-Roman Script Initiative (NRSI).
This port installs the keyboard so that it can be used through SCIM or
IBus KMFL IMEngine (textproc/scim-kmfl-imengine, textproc/ibus-kmfl).
To keyboard a Yi syllable, you should type the Pinyin romanization for that
syllable, followed by a space. For keyboarding punctuation, use the usual
punctuation keystrokes.
The keyboard is compatible with Yi range as defined in Unicode 3.0 and it does
not provide keystrokes for the Yi Radicals which were added to Unicode 3.2
(U+A4A2..U+A4A3, U+A4B4, U+A4C1, U+A4C5).