How to Install and Uninstall casc-devel.noarch Package on Fedora 35
Last updated: November 26,2024
1. Install "casc-devel.noarch" package
Please follow the instructions below to install casc-devel.noarch on Fedora 35
$
sudo dnf update
Copied
$
sudo dnf install
casc-devel.noarch
Copied
2. Uninstall "casc-devel.noarch" package
Here is a brief guide to show you how to uninstall casc-devel.noarch on Fedora 35:
$
sudo dnf remove
casc-devel.noarch
Copied
$
sudo dnf autoremove
Copied
3. Information about the casc-devel.noarch package on Fedora 35
Last metadata expiration check: 1:12:54 ago on Wed Sep 7 02:25:42 2022.
Available Packages
Name : casc-devel
Version : 1.0.5
Release : 1.fc35
Architecture : noarch
Size : 47 k
Source : casc-1.0.5-1.fc35.src.rpm
Repository : updates
Summary : Colored Abstract Simplicial Complex (CASC) Library
URL : https://github.com/ctlee/casc
License : LGPLv2+
Description : CASC is a modern and header-only C++ library which provides a data structure to
: represent arbitrary dimension abstract simplicial complexes with user-defined
: classes stored directly on the simplices at each dimension. This is achieved by
: taking advantage of the combinatorial nature of simplicial complexes and new
: C++ code features such as: variadic templates and automatic function return
: type deduction. Essentially CASC stores the full topology of the complex
: according to a Hasse diagram. The representation of the topology is decoupled
: from interactions of user data through the use of metatemplate programming.
Available Packages
Name : casc-devel
Version : 1.0.5
Release : 1.fc35
Architecture : noarch
Size : 47 k
Source : casc-1.0.5-1.fc35.src.rpm
Repository : updates
Summary : Colored Abstract Simplicial Complex (CASC) Library
URL : https://github.com/ctlee/casc
License : LGPLv2+
Description : CASC is a modern and header-only C++ library which provides a data structure to
: represent arbitrary dimension abstract simplicial complexes with user-defined
: classes stored directly on the simplices at each dimension. This is achieved by
: taking advantage of the combinatorial nature of simplicial complexes and new
: C++ code features such as: variadic templates and automatic function return
: type deduction. Essentially CASC stores the full topology of the complex
: according to a Hasse diagram. The representation of the topology is decoupled
: from interactions of user data through the use of metatemplate programming.
4. References on Fedora 35
Popular Linux Distros
Ubuntu
Arch
Linux Mint
Fedora
Kali Linux
Debian
openSuSE
CentOS
Oracle Linux
Manjaro
Rocky Linux
AlmaLinux
Amazon Linux
Red Hat Enterprise Linux