How to Install and Uninstall ghc-tf-random.x86_64 Package on Rocky Linux 9
Last updated: November 26,2024
1. Install "ghc-tf-random.x86_64" package
In this section, we are going to explain the necessary steps to install ghc-tf-random.x86_64 on Rocky Linux 9
$
sudo dnf update
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$
sudo dnf install
ghc-tf-random.x86_64
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2. Uninstall "ghc-tf-random.x86_64" package
Please follow the steps below to uninstall ghc-tf-random.x86_64 on Rocky Linux 9:
$
sudo dnf remove
ghc-tf-random.x86_64
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$
sudo dnf autoremove
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3. Information about the ghc-tf-random.x86_64 package on Rocky Linux 9
Last metadata expiration check: 0:03:13 ago on Fri Feb 16 06:49:52 2024.
Available Packages
Name : ghc-tf-random
Version : 0.5
Release : 25.el9
Architecture : x86_64
Size : 49 k
Source : ghc-tf-random-0.5-25.el9.src.rpm
Repository : epel
Summary : High-quality splittable pseudorandom number generator
URL : https://hackage.haskell.org/package/tf-random
License : BSD and Public Domain
Description : This package contains an implementation of a high-quality splittable
: pseudorandom number generator. The generator is based on a cryptographic hash
: function built on top of the ThreeFish block cipher. See the paper /Splittable
: Pseudorandom Number Generators Using Cryptographic Hashing/ by Claessen, Pałka
: for details and the rationale of the design.
:
: The package provides the following:
:
: * A splittable PRNG that implements the standard 'System.Random.RandomGen'
: class.
:
: * The generator also implements an alternative version of the
: 'System.Random.TF.Gen.RandomGen' class (exported from "System.Random.TF.Gen"),
: which requires the generator to return pseudorandom integers from the full
: 32-bit range, and contains an n-way split function.
:
: * An alternative version of the 'Random' class is provided, which is linked to
: the new 'RandomGen' class, together with 'Random' instances for some integral
: types.
:
: * Two functions for initialising the generator with a non-deterministic seed:
: one using the system time, and one using the '/dev/urandom' UNIX special file.
:
: The package uses an adapted version of the reference C implementation of
: ThreeFish from the reference package of the Skein hash function
: (), originally written by Doug Whiting.
:
: Please note that even though the generator provides very high-quality
: pseudorandom numbers, it has not been designed with cryptographic applications
: in mind.
Available Packages
Name : ghc-tf-random
Version : 0.5
Release : 25.el9
Architecture : x86_64
Size : 49 k
Source : ghc-tf-random-0.5-25.el9.src.rpm
Repository : epel
Summary : High-quality splittable pseudorandom number generator
URL : https://hackage.haskell.org/package/tf-random
License : BSD and Public Domain
Description : This package contains an implementation of a high-quality splittable
: pseudorandom number generator. The generator is based on a cryptographic hash
: function built on top of the ThreeFish block cipher. See the paper /Splittable
: Pseudorandom Number Generators Using Cryptographic Hashing/ by Claessen, Pałka
: for details and the rationale of the design.
:
: The package provides the following:
:
: * A splittable PRNG that implements the standard 'System.Random.RandomGen'
: class.
:
: * The generator also implements an alternative version of the
: 'System.Random.TF.Gen.RandomGen' class (exported from "System.Random.TF.Gen"),
: which requires the generator to return pseudorandom integers from the full
: 32-bit range, and contains an n-way split function.
:
: * An alternative version of the 'Random' class is provided, which is linked to
: the new 'RandomGen' class, together with 'Random' instances for some integral
: types.
:
: * Two functions for initialising the generator with a non-deterministic seed:
: one using the system time, and one using the '/dev/urandom' UNIX special file.
:
: The package uses an adapted version of the reference C implementation of
: ThreeFish from the reference package of the Skein hash function
: (
:
: Please note that even though the generator provides very high-quality
: pseudorandom numbers, it has not been designed with cryptographic applications
: in mind.