| ecl-concepts |
1.2.1-5 |
Introduces a compile time concept checking mechanism that can be used most commonly to check for required functionality when passing template arguments. |
meta-ros2-jazzy |
| ecl-concepts |
1.2.1-5 |
Introduces a compile time concept checking mechanism that can be used most commonly to check for required functionality when passing template arguments. |
meta-ros2-kilted |
| ecl-containers |
0.62.2 |
The containers included here are intended to extend the stl containers. In all cases, these implementations are designed to implement c++ conveniences and safety where speed is not sacrificed. Also includes techniques for memory debugging of common problems such as buffer overruns. |
meta-ros1-melodic |
| ecl-containers |
1.0.4-1 |
The containers included here are intended to extend the stl containers. In all cases, these implementations are designed to implement c++ conveniences and safety where speed is not sacrificed. Also includes techniques for memory debugging of common problems such as buffer overruns. |
meta-ros2-dashing |
| ecl-containers |
1.0.7-1 |
The containers included here are intended to extend the stl containers. In all cases, these implementations are designed to implement c++ conveniences and safety where speed is not sacrificed. Also includes techniques for memory debugging of common problems such as buffer overruns. |
meta-ros2-eloquent |
| ecl-containers |
1.2.0-1 |
The containers included here are intended to extend the stl containers. In all cases, these implementations are designed to implement c++ conveniences and safety where speed is not sacrificed. Also includes techniques for memory debugging of common problems such as buffer overruns. |
meta-ros2-foxy |
| ecl-containers |
1.2.1-4 |
The containers included here are intended to extend the stl containers. In all cases, these implementations are designed to implement c++ conveniences and safety where speed is not sacrificed. Also includes techniques for memory debugging of common problems such as buffer overruns. |
meta-ros2-rolling |
| ecl-containers |
0.62.3-1 |
The containers included here are intended to extend the stl containers. In all cases, these implementations are designed to implement c++ conveniences and safety where speed is not sacrificed. Also includes techniques for memory debugging of common problems such as buffer overruns. |
meta-ros1-noetic |
| ecl-containers |
1.2.1-1 |
The containers included here are intended to extend the stl containers. In all cases, these implementations are designed to implement c++ conveniences and safety where speed is not sacrificed. Also includes techniques for memory debugging of common problems such as buffer overruns. |
meta-ros2-humble |
| ecl-containers |
1.2.1-5 |
The containers included here are intended to extend the stl containers. In all cases, these implementations are designed to implement c++ conveniences and safety where speed is not sacrificed. Also includes techniques for memory debugging of common problems such as buffer overruns. |
meta-ros2-jazzy |
| ecl-containers |
1.2.1-5 |
The containers included here are intended to extend the stl containers. In all cases, these implementations are designed to implement c++ conveniences and safety where speed is not sacrificed. Also includes techniques for memory debugging of common problems such as buffer overruns. |
meta-ros2-kilted |
| ecl-ipc |
0.62.2 |
Interprocess mechanisms vary greatly across platforms - sysv, posix, win32, there are more than a few. This package provides an infrastructure to allow for developing cross platform c++ wrappers around the lower level c api's that handle these mechanisms. These make it not only easier to utilise such mechanisms, but allow it to be done consistently across platforms. |
meta-ros1-melodic |
| ecl-ipc |
1.0.4-1 |
Interprocess mechanisms vary greatly across platforms - sysv, posix, win32, there are more than a few. This package provides an infrastructure to allow for developing cross platform c++ wrappers around the lower level c api's that handle these mechanisms. These make it not only easier to utilise such mechanisms, but allow it to be done consistently across platforms. |
meta-ros2-dashing |
| ecl-ipc |
1.0.7-1 |
Interprocess mechanisms vary greatly across platforms - sysv, posix, win32, there are more than a few. This package provides an infrastructure to allow for developing cross platform c++ wrappers around the lower level c api's that handle these mechanisms. These make it not only easier to utilise such mechanisms, but allow it to be done consistently across platforms. |
meta-ros2-eloquent |
| ecl-ipc |
1.2.0-1 |
Interprocess mechanisms vary greatly across platforms - sysv, posix, win32, there are more than a few. This package provides an infrastructure to allow for developing cross platform c++ wrappers around the lower level c api's that handle these mechanisms. These make it not only easier to utilise such mechanisms, but allow it to be done consistently across platforms. |
meta-ros2-foxy |
| ecl-ipc |
1.2.1-4 |
Interprocess mechanisms vary greatly across platforms - sysv, posix, win32, there are more than a few. This package provides an infrastructure to allow for developing cross platform c++ wrappers around the lower level c api's that handle these mechanisms. These make it not only easier to utilise such mechanisms, but allow it to be done consistently across platforms. |
meta-ros2-rolling |
| ecl-ipc |
0.62.3-1 |
Interprocess mechanisms vary greatly across platforms - sysv, posix, win32, there are more than a few. This package provides an infrastructure to allow for developing cross platform c++ wrappers around the lower level c api's that handle these mechanisms. These make it not only easier to utilise such mechanisms, but allow it to be done consistently across platforms. |
meta-ros1-noetic |
| ecl-ipc |
1.2.1-1 |
Interprocess mechanisms vary greatly across platforms - sysv, posix, win32, there are more than a few. This package provides an infrastructure to allow for developing cross platform c++ wrappers around the lower level c api's that handle these mechanisms. These make it not only easier to utilise such mechanisms, but allow it to be done consistently across platforms. |
meta-ros2-humble |
| ecl-ipc |
1.2.1-5 |
Interprocess mechanisms vary greatly across platforms - sysv, posix, win32, there are more than a few. This package provides an infrastructure to allow for developing cross platform c++ wrappers around the lower level c api's that handle these mechanisms. These make it not only easier to utilise such mechanisms, but allow it to be done consistently across platforms. |
meta-ros2-jazzy |
| ecl-ipc |
1.2.1-5 |
Interprocess mechanisms vary greatly across platforms - sysv, posix, win32, there are more than a few. This package provides an infrastructure to allow for developing cross platform c++ wrappers around the lower level c api's that handle these mechanisms. These make it not only easier to utilise such mechanisms, but allow it to be done consistently across platforms. |
meta-ros2-kilted |
| ecl-manipulation |
0.60.3 |
Includes basic manipulation related structures as well as a few algorithms currently used at Yujin Robot. |
meta-ros1-melodic |
| ecl-mpl |
0.62.2 |
Metaprogramming tools move alot of runtime calculations to be shifted to compile time. This has only very elementary structures at this stage. |
meta-ros1-melodic |
| ecl-mpl |
1.0.4-1 |
Metaprogramming tools move alot of runtime calculations to be shifted to compile time. This has only very elementary structures at this stage. |
meta-ros2-dashing |
| ecl-mpl |
1.0.7-1 |
Metaprogramming tools move alot of runtime calculations to be shifted to compile time. This has only very elementary structures at this stage. |
meta-ros2-eloquent |
| ecl-mpl |
1.2.0-1 |
Metaprogramming tools move alot of runtime calculations to be shifted to compile time. This has only very elementary structures at this stage. |
meta-ros2-foxy |
| ecl-mpl |
1.2.1-4 |
Metaprogramming tools move alot of runtime calculations to be shifted to compile time. This has only very elementary structures at this stage. |
meta-ros2-rolling |
| ecl-mpl |
0.62.3-1 |
Metaprogramming tools move alot of runtime calculations to be shifted to compile time. This has only very elementary structures at this stage. |
meta-ros1-noetic |
| ecl-mpl |
1.2.1-1 |
Metaprogramming tools move alot of runtime calculations to be shifted to compile time. This has only very elementary structures at this stage. |
meta-ros2-humble |
| ecl-mpl |
1.2.1-5 |
Metaprogramming tools move alot of runtime calculations to be shifted to compile time. This has only very elementary structures at this stage. |
meta-ros2-jazzy |
| ecl-mpl |
1.2.1-5 |
Metaprogramming tools move alot of runtime calculations to be shifted to compile time. This has only very elementary structures at this stage. |
meta-ros2-kilted |
| ecl-statistics |
0.62.2 |
Common statistical structures and algorithms for control systems. |
meta-ros1-melodic |
| ecl-statistics |
1.0.4-1 |
Common statistical structures and algorithms for control systems. |
meta-ros2-dashing |
| ecl-statistics |
1.0.7-1 |
Common statistical structures and algorithms for control systems. |
meta-ros2-eloquent |
| ecl-statistics |
1.2.0-1 |
Common statistical structures and algorithms for control systems. |
meta-ros2-foxy |
| ecl-statistics |
1.2.1-4 |
Common statistical structures and algorithms for control systems. |
meta-ros2-rolling |
| ecl-statistics |
0.62.3-1 |
Common statistical structures and algorithms for control systems. |
meta-ros1-noetic |
| ecl-statistics |
1.2.1-1 |
Common statistical structures and algorithms for control systems. |
meta-ros2-humble |
| ecl-statistics |
1.2.1-5 |
Common statistical structures and algorithms for control systems. |
meta-ros2-jazzy |
| ecl-statistics |
1.2.1-5 |
Common statistical structures and algorithms for control systems. |
meta-ros2-kilted |
| efitools |
1.9.2 |
Tools to support reading and manipulating the UEFI signature database |
meta-efi-secure-boot |
| efitools-native |
1.9.2 |
Tools to support reading and manipulating the UEFI signature database |
meta-efi-secure-boot |
| epeg |
git |
Epeg is a small library for handling thumbnails |
meta-oe |
| eval-closure-perl |
0.14 |
String eval is often used for dynamic code generation. For instance, "Moose" uses it heavily, to generate inlined versions of accessors and constructors, which speeds code up at runtime by a significant amount. String eval is not without its issues however - it's difficult to control the scope it's used in (which determines which variables are in scope inside the eval), and it's easy to miss compilation errors, since eval catches them and sticks them in $@ instead. |
meta-cpan |
| expect |
5.45.4 |
tool for automating interactive applications according to a script |
openembedded-core |
| extutils-cbuilder-perl |
0.280236 |
This module can build the C portions of Perl modules by invoking the appropriate compilers and linkers in a cross-platform manner. It was motivated by the "Module::Build" project, but may be useful for other purposes as well. However, it is *not* intended as a general cross-platform interface to all your C building needs. That would have been a much more ambitious goal! |
meta-cpan |
| fastdds |
3.6.1-1 |
eProsima Fast DDS is a C++ implementation of the DDS (Data Distribution Service) standard of the OMG (Object Management Group). eProsima Fast DDS implements the RTPS (Real Time Publish Subscribe) protocol, which provides publisher-subscriber communications over unreliable transports such as UDP, as defined and maintained by the Object Management Group (OMG) consortium. RTPS is also the wire interoperability protocol defined for the Data Distribution Service (DDS) standard. eProsima Fast DDS expose an API to access directly the RTPS protocol, giving the user full access to the protocol internals. |
meta-ros2-rolling |
| fastdds |
3.2.3-1 |
eProsima Fast DDS is a C++ implementation of the DDS (Data Distribution Service) standard of the OMG (Object Management Group). eProsima Fast DDS implements the RTPS (Real Time Publish Subscribe) protocol, which provides publisher-subscriber communications over unreliable transports such as UDP, as defined and maintained by the Object Management Group (OMG) consortium. RTPS is also the wire interoperability protocol defined for the Data Distribution Service (DDS) standard. eProsima Fast DDS expose an API to access directly the RTPS protocol, giving the user full access to the protocol internals. |
meta-ros2-kilted |
| fastfetch |
2.38.0+gitX |
Like neofetch, but much faster because written mostly in C. |
meta-toradex-torizon |
| fastrtps |
2.6.11-1 |
*eprosima Fast DDS* (formerly Fast RTPS) is a C++ implementation of the DDS (Data Distribution Service) standard of the OMG (Object Management Group). eProsima Fast DDS implements the RTPS (Real Time Publish Subscribe) protocol, which provides publisher-subscriber communications over unreliable transports such as UDP, as defined and maintained by the Object Management Group (OMG) consortium. RTPS is also the wire interoperability protocol defined for the Data Distribution Service (DDS) standard. *eProsima Fast DDS* expose an API to access directly the RTPS protocol, giving the user full access to the protocol internals. |
meta-ros2-humble |
| fastrtps |
2.14.6-1 |
*eprosima Fast DDS* (formerly Fast RTPS) is a C++ implementation of the DDS (Data Distribution Service) standard of the OMG (Object Management Group). eProsima Fast DDS implements the RTPS (Real Time Publish Subscribe) protocol, which provides publisher-subscriber communications over unreliable transports such as UDP, as defined and maintained by the Object Management Group (OMG) consortium. RTPS is also the wire interoperability protocol defined for the Data Distribution Service (DDS) standard. *eProsima Fast DDS* expose an API to access directly the RTPS protocol, giving the user full access to the protocol internals. |
meta-ros2-jazzy |