| libexecinfo |
1.1 |
A quick-n-dirty BSD licensed clone of the GNU libc backtrace facility. |
meta-oe |
| libsystemnative |
git |
Quick, focused, and hacked library to make ASP.NET Core RTM run on Linux/ARM |
meta-aspnet |
| liri-fluid |
1.2.0+gitX |
Library for QtQuick apps with Material Design |
meta-qt5-extra |
| lua-inspect |
3.1.3 |
Lua table visualizer, ideal for debugging |
meta-luarocks |
| lxqt-runner |
1.4.0 |
Tool used to launch programs quickly by typing their names |
meta-qt5-extra |
| mybw |
0.0+git |
Quick hack to measure memory read performance. |
meta-qcom |
| ngtcp2 |
1.22.1 |
ngtcp2 project is an effort to implement IETF QUIC protocol |
meta-networking |
| ngtcp2 |
1.22.1 |
ngtcp2 project is an effort to implement IETF QUIC protocol |
meta-voltumna |
| opie-mediaplayer2 |
1.2.5 |
The next generation mediaplayer for Opie - based on libxine. It plays mp3, mpeg, wav, ogg, quicktime, divx, etc. and is capable of streaming. |
meta-opie |
| opie-mediaplayer2 |
X |
The next generation mediaplayer for Opie - based on libxine. It plays mp3, mpeg, wav, ogg, quicktime, divx, etc. and is capable of streaming. |
meta-opie |
| python-cmd2 |
0.8.9 |
Extra features for standard library's cmd module |
meta-python2 |
| python-flask-restful |
0.3.7 |
Simple framework for creating REST APIs |
meta-python2 |
| python3 |
3.14.4 |
The Python Programming Language |
openembedded-core |
| python3 |
3.14.4 |
The Python Programming Language |
meta-voltumna |
| python3-cached-property |
2.0.1 |
A decorator for caching properties in classes. |
meta-python |
| python3-fastentrypoints |
0.12 |
Make entry_points specified in setup.py load more quickly |
meta-virtualization |
| python3-flask-restful |
0.3.10 |
Simple framework for creating REST APIs |
meta-python |
| python3-phx-filters |
2.0.2 |
Validation and data pipelines made easy! |
meta-tangle |
| qat17 |
4.28.0-00004 |
Intel(r) QuickAssist Technology API |
meta-intel-qat |
| qat17 |
4.28.0-00004 |
Intel(r) QuickAssist Technology API |
meta-voltumna |
| qat20 |
1.2.30-00090 |
Intel(r) QuickAssist Technology API |
meta-intel-qat |
| qat20 |
1.2.30-00090 |
Intel(r) QuickAssist Technology API |
meta-voltumna |
| qatlib |
26.02.0 |
Intel QuickAssist Technology Library (QATlib) |
meta-intel-qat |
| qatlib |
26.02.0 |
Intel QuickAssist Technology Library (QATlib) |
meta-voltumna |
| qqc2-desktop-style |
5.110.0 |
QtQuickControls 2 style that integrates with the desktop |
meta-kf5 |
| qqc2-desktop-style |
5.101.0 |
QtQuickControls 2 style that integrates with the desktop |
meta-qt5-extra |
| qqc2-desktop-style |
6.22.0 |
This is a style for Qt Quick Controls which uses the application's QStyle |
meta-wayland |
| qqc2-desktop-style |
6.18.0 |
QtQuickControls 2 style that integrates with the desktop |
meta-kf6 |
| qt5everywheredemo |
1.0 |
Qt5 everywhere demo |
meta-qt5 |
| qtscenegraph-adaptation |
0.8.0+git |
System specific changes for the Qt Quick Scene Graph. |
meta-luneos |
| qtscenegraph-adaptation |
5.8.0+gitX |
System specific changes for the Qt Quick Scene Graph. |
meta-asteroid |
| roscpp |
1.14.12-1 |
roscpp is a C++ implementation of ROS. It provides a <a href="http://wiki.ros.org/Client%20Libraries">client library</a> that enables C++ programmers to quickly interface with ROS <a href="http://ros.org/wiki/Topics">Topics</a>, <a href="http://ros.org/wiki/Services">Services</a>, and <a href="http://ros.org/wiki/Parameter Server">Parameters</a>. roscpp is the most widely used ROS client library and is designed to be the high-performance library for ROS. |
meta-ros1-melodic |
| roscpp |
1.17.4-1 |
roscpp is a C++ implementation of ROS. It provides a <a href="http://wiki.ros.org/Client%20Libraries">client library</a> that enables C++ programmers to quickly interface with ROS <a href="http://ros.org/wiki/Topics">Topics</a>, <a href="http://ros.org/wiki/Services">Services</a>, and <a href="http://ros.org/wiki/Parameter Server">Parameters</a>. roscpp is the most widely used ROS client library and is designed to be the high-performance library for ROS. |
meta-ros1-noetic |
| rosparam-shortcuts |
0.3.3-1 |
Quickly load variables from rosparam with good command line error checking. |
meta-ros1-melodic |
| rosparam-shortcuts |
0.4.0-1 |
Quickly load variables from rosparam with good command line error checking. |
meta-ros1-noetic |
| rospy |
1.14.12-1 |
rospy is a pure Python client library for ROS. The rospy client API enables Python programmers to quickly interface with ROS <a href="http://ros.org/wiki/Topics">Topics</a>, <a href="http://ros.org/wiki/Services">Services</a>, and <a href="http://ros.org/wiki/Parameter Server">Parameters</a>. The design of rospy favors implementation speed (i.e. developer time) over runtime performance so that algorithms can be quickly prototyped and tested within ROS. It is also ideal for non-critical-path code, such as configuration and initialization code. Many of the ROS tools are written in rospy to take advantage of the type introspection capabilities. Many of the ROS tools, such as <a href="http://ros.org/wiki/rostopic">rostopic</a> and <a href="http://ros.org/wiki/rosservice">rosservice</a>, are built on top of rospy. |
meta-ros1-melodic |
| rospy |
1.17.4-1 |
rospy is a pure Python client library for ROS. The rospy client API enables Python programmers to quickly interface with ROS <a href="http://ros.org/wiki/Topics">Topics</a>, <a href="http://ros.org/wiki/Services">Services</a>, and <a href="http://ros.org/wiki/Parameter Server">Parameters</a>. The design of rospy favors implementation speed (i.e. developer time) over runtime performance so that algorithms can be quickly prototyped and tested within ROS. It is also ideal for non-critical-path code, such as configuration and initialization code. Many of the ROS tools are written in rospy to take advantage of the type introspection capabilities. Many of the ROS tools, such as <a href="http://ros.org/wiki/rostopic">rostopic</a> and <a href="http://ros.org/wiki/rosservice">rosservice</a>, are built on top of rospy. |
meta-ros1-noetic |
| ruby |
4.0.2 |
An interpreter of object-oriented scripting language |
openembedded-core |
| ruby |
4.0.2 |
An interpreter of object-oriented scripting language |
meta-voltumna |
| smach |
2.0.1 |
SMACH is a task-level architecture for rapidly creating complex robot behavior. At its core, SMACH is a ROS-independent Python library to build hierarchical state machines. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros1-melodic |
| smach |
3.0.3-2 |
SMACH is a task-level architecture for rapidly creating complex robot behavior. At its core, SMACH is a ROS-independent Python library to build hierarchical state machines. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros2-rolling |
| smach |
2.5.3-1 |
SMACH is a task-level architecture for rapidly creating complex robot behavior. At its core, SMACH is a ROS-independent Python library to build hierarchical state machines. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros1-noetic |
| smach |
3.0.3-1 |
SMACH is a task-level architecture for rapidly creating complex robot behavior. At its core, SMACH is a ROS-independent Python library to build hierarchical state machines. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros2-humble |
| smach |
3.0.3-3 |
SMACH is a task-level architecture for rapidly creating complex robot behavior. At its core, SMACH is a ROS-independent Python library to build hierarchical state machines. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros2-jazzy |
| smach |
3.0.3-3 |
SMACH is a task-level architecture for rapidly creating complex robot behavior. At its core, SMACH is a ROS-independent Python library to build hierarchical state machines. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros2-kilted |
| smach-ros |
2.0.1 |
The smach_ros package contains extensions for the SMACH library to integrate it tightly with ROS. For example, SMACH-ROS can call ROS services, listen to ROS topics, and integrate with <a href="http://www.ros.org/wiki/actionlib">actionlib</a> both as a client, and a provider of action servers. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros1-melodic |
| smach-ros |
3.0.3-2 |
The smach_ros package contains extensions for the SMACH library to integrate it tightly with ROS. For example, SMACH-ROS can call ROS services, listen to ROS topics, and integrate with <a href="http://www.ros.org/wiki/actionlib">actionlib</a> both as a client, and a provider of action servers. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros2-rolling |
| smach-ros |
2.5.3-1 |
The smach_ros package contains extensions for the SMACH library to integrate it tightly with ROS. For example, SMACH-ROS can call ROS services, listen to ROS topics, and integrate with <a href="http://www.ros.org/wiki/actionlib">actionlib</a> both as a client, and a provider of action servers. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros1-noetic |
| smach-ros |
3.0.3-1 |
The smach_ros package contains extensions for the SMACH library to integrate it tightly with ROS. For example, SMACH-ROS can call ROS services, listen to ROS topics, and integrate with <a href="http://www.ros.org/wiki/actionlib">actionlib</a> both as a client, and a provider of action servers. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros2-humble |
| smach-ros |
3.0.3-3 |
The smach_ros package contains extensions for the SMACH library to integrate it tightly with ROS. For example, SMACH-ROS can call ROS services, listen to ROS topics, and integrate with <a href="http://www.ros.org/wiki/actionlib">actionlib</a> both as a client, and a provider of action servers. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros2-jazzy |