How to Install and Uninstall libstp2_3 Package on openSUSE Leap
Last updated: December 26,2024
1. Install "libstp2_3" package
This tutorial shows how to install libstp2_3 on openSUSE Leap
$
sudo zypper refresh
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$
sudo zypper install
libstp2_3
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2. Uninstall "libstp2_3" package
Please follow the instructions below to uninstall libstp2_3 on openSUSE Leap:
$
sudo zypper remove
libstp2_3
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3. Information about the libstp2_3 package on openSUSE Leap
Information for package libstp2_3:
----------------------------------
Repository : Main Repository
Name : libstp2_3
Version : 2.3.3+20220722-bp155.1.7
Arch : x86_64
Vendor : openSUSE
Installed Size : 2.6 MiB
Installed : No
Status : not installed
Source package : stp-2.3.3+20220722-bp155.1.7.src
Upstream URL : https://github.com/stp/stp/wiki
Summary : Constraint Solver
Description :
STP is an efficient decision procedure for the validity (or satisfiability) of
formulas from a quantifier-free many-sorted theory of fixed-width bitvectors
and (non-extensional) one-dimensional arrays. The functions in STP's input
language include concatenation, extraction, left/right shift, sign-extension,
unary minus, addition, multiplication, (signed) modulo/division, bitwise
Boolean operations, if-then-else terms, and array reads and writes. The
predicates in the language include equality and (signed) comparators between
bitvector terms.
----------------------------------
Repository : Main Repository
Name : libstp2_3
Version : 2.3.3+20220722-bp155.1.7
Arch : x86_64
Vendor : openSUSE
Installed Size : 2.6 MiB
Installed : No
Status : not installed
Source package : stp-2.3.3+20220722-bp155.1.7.src
Upstream URL : https://github.com/stp/stp/wiki
Summary : Constraint Solver
Description :
STP is an efficient decision procedure for the validity (or satisfiability) of
formulas from a quantifier-free many-sorted theory of fixed-width bitvectors
and (non-extensional) one-dimensional arrays. The functions in STP's input
language include concatenation, extraction, left/right shift, sign-extension,
unary minus, addition, multiplication, (signed) modulo/division, bitwise
Boolean operations, if-then-else terms, and array reads and writes. The
predicates in the language include equality and (signed) comparators between
bitvector terms.