How to Install and Uninstall leptonica.i686 Package on Oracle Linux 9
Last updated: November 25,2024
1. Install "leptonica.i686" package
This is a short guide on how to install leptonica.i686 on Oracle Linux 9
$
sudo dnf update
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$
sudo dnf install
leptonica.i686
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2. Uninstall "leptonica.i686" package
This guide covers the steps necessary to uninstall leptonica.i686 on Oracle Linux 9:
$
sudo dnf remove
leptonica.i686
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$
sudo dnf autoremove
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3. Information about the leptonica.i686 package on Oracle Linux 9
Last metadata expiration check: 2:29:16 ago on Thu Feb 15 07:50:05 2024.
Available Packages
Name : leptonica
Version : 1.80.0
Release : 4.el9.1
Architecture : i686
Size : 1.1 M
Source : leptonica-1.80.0-4.el9.1.src.rpm
Repository : ol9_appstream
Summary : C library for efficient image processing and image analysis operations
URL : https://github.com/danbloomberg/leptonica
License : Leptonica
Description : The library supports many operations that are useful on
: * Document images
: * Natural images
:
: Fundamental image processing and image analysis operations
: * Rasterop (aka bitblt)
: * Affine transforms (scaling, translation, rotation, shear)
: on images of arbitrary pixel depth
: * Projective and bi-linear transforms
: * Binary and gray scale morphology, rank order filters, and
: convolution
: * Seed-fill and connected components
: * Image transformations with changes in pixel depth, both at
: the same scale and with scale change
: * Pixelwise masking, blending, enhancement, arithmetic ops,
: etc.
Available Packages
Name : leptonica
Version : 1.80.0
Release : 4.el9.1
Architecture : i686
Size : 1.1 M
Source : leptonica-1.80.0-4.el9.1.src.rpm
Repository : ol9_appstream
Summary : C library for efficient image processing and image analysis operations
URL : https://github.com/danbloomberg/leptonica
License : Leptonica
Description : The library supports many operations that are useful on
: * Document images
: * Natural images
:
: Fundamental image processing and image analysis operations
: * Rasterop (aka bitblt)
: * Affine transforms (scaling, translation, rotation, shear)
: on images of arbitrary pixel depth
: * Projective and bi-linear transforms
: * Binary and gray scale morphology, rank order filters, and
: convolution
: * Seed-fill and connected components
: * Image transformations with changes in pixel depth, both at
: the same scale and with scale change
: * Pixelwise masking, blending, enhancement, arithmetic ops,
: etc.