This is basically the same as x11/ruby-qt4 beacuse those are just
different releases of the same project. Idea is to make this package
a replacement for the x11/ruby-qt4.
place some bodies on the scene, add some forces such as gravity or
springs, then click "Simulate" and Step shows you how your scene
will evolve according to the laws of physics. You can change every
property of bodies/forces in your experiment (even during simulation)
and see how this will change the outcome of the experiment. With
Step you can not only learn but feel how physics works.
Legend has it that SMOKE stands for Scripting Meta Object Kompiler
Engine.
Information about all classes and all methods/functions is stored
in cross-referencing tables for fast look-ups. Thereby the whole
API of a wrapped library can be used.
The main purpose of SMOKE is making it easier to write bindings
from scripting languages to Qt and KDE - with an emphasis on ease
of use and flexibility.
This package contains wrappers for Qt, and does not depend on KDE
in any way.
NB: This could conflict with x11/ruby-qt4, paths to fix this are
investigated.
Legend has it that SMOKE stands for Scripting Meta Object Kompiler
Engine.
Information about all classes and all methods/functions is stored
in cross-referencing tables for fast look-ups. Thereby the whole
API of a wrapped library can be used.
The main purpose of SMOKE is making it easier to write bindings
from scripting languages to Qt and KDE - with an emphasis on ease
of use and flexibility.
This package contains wrappers for KDE, for Qt wrappers see
the smokeqt package.
Legend has it that SMOKE stands for Scripting Meta Object Kompiler
Engine.
Information about all classes and all methods/functions is stored
in cross-referencing tables for fast look-ups. Thereby the whole
API of a wrapped library can be used.
The main purpose of SMOKE is making it easier to write bindings
from scripting languages to Qt and KDE - with an emphasis on ease
of use and flexibility.
This package contains generator used for creating actual wrappers.
the results of a graph algorithm and also helping students to do
the algorithms. Rocs has a scripting module, done in Qt Script,
that interacts with the drawn graph and every change in the graph
with the script is reflected on the drawn one.
* printd: contains a kded module that checks for user print jobs
and shows a systray icon;
* printqueue: contains an application that show the printers queue;
* printer-manager-kcm: configure printers in a very simple way;
* add-printer: a wizard to add new printers;
* plasmoid: show printers and it's jobs.
It includes:
* accountwizard - steps you through account creation for many resources;
* Akonadi agents - calendarsearch, invitations, maildispatcher,
nepomukfeeder and more;
* Akonadi resources - birthdays, VCard contacts, CalDav, Google, ICal
calendars, and many more.
Parley supports many language specific features but can be used for
other learning tasks just as well. It uses the spaced repetition
learning method, also known as flash cards.
Creating new vocabulary collections with Parley is easy, but of
course it is even better if you can use some of our premade files.
Have a look at the KDE-Files.org page or use the "Download New
Collections" feature directly in Parley.
It combines the excellent functionalities of KPDF with the
versatility of supporting different kind of documents, like PDF,
Postscript, DjVu, CHM, XPS, ePub and others.
It is not an application, but a component which can be used by
developers within applications.
This is the KDE Meta Data library (not to confuse with KFileMetaData).
It consists of the following parts:
* The main resource handling centered around Nepomuk2::Resource;
* The handling of ontologies via classes in the Nepomuk2::Types namespace;
* The desktop Nepomuk2::Query API;
* nepomuk_facets;
* Several utility methods and classes.