libsigsegv - handle page faults in user mode

Property Value
Distribution Slackware 14.1
Repository rworkman's Packages all
Package name libsigsegv
Package version 2.10
Package release 1_rlw
Package architecture x86_64
Package type txz
Installed size 150.00 KB
Download size 36.00 KB
Official Mirror
libsugsegv is a library for handling page faults in user mode. A page
fault occurs when a program tries to access to a region of memory that
is currently not available.


Package Version Architecture Repository
libsigsegv-2.10-x86_64-2_slack.txz 2.10 x86_64 Slackonly
libsigsegv-2.10-i486-1_slack.txz 2.10 i486 Slackonly
libsigsegv-2.10-i486-1_rlw.txz 2.10 i486 rworkman's Packages
libsigsegv-2.8-i486-1_nhh.tgz 2.8 i486 Niels Horn
libsigsegv-2.8-x86_64-1_nhh.tgz 2.8 x86_64 Niels Horn
libsigsegv - - -


Type URL
Binary Package libsigsegv-2.10-x86_64-1_rlw.txz
Source Package unknown

Install Howto

  1. Download libsigsegv-2.10-x86_64-1_rlw.txz
  2. Install libsigsegv txz package:
    # upgradepkg --install-new libsigsegv-2.10-x86_64-1_rlw.txz



See Also

Package Description
libwnck-2.31.0-i486-1_rlw.txz Window Navigator Construction Kit library
libwnck-2.31.0-x86_64-1_rlw.txz Window Navigator Construction Kit library
libwpg-0.2.2-i486-1_rlw.txz WPG-image reading/converting library
libwpg-0.2.2-x86_64-1_rlw.txz WPG-image reading/converting library
libxfce4ui-4.12.1-i486-1_rlw.txz Xfce widget library
libxfce4ui-4.12.1-x86_64-1_rlw.txz Xfce widget library
libxfce4util-4.12.1-i486-1_rlw.txz basic utility library for Xfce
libxfce4util-4.12.1-x86_64-1_rlw.txz basic utility library for Xfce
lxml-3.2.4-i486-1_rlw.txz Python bindings for libxml2 and libxslt
lxml-3.2.4-x86_64-1_rlw.txz Python bindings for libxml2 and libxslt
mm-common-0.9.6-noarch-1_rlw.txz build infrastructure and utilities for GNOME C++ bindings
murrine-0.98.2-i486-1_rlw.txz Gtk2 Cairo Engine
murrine-0.98.2-x86_64-1_rlw.txz Gtk2 Cairo Engine
numpy-1.8.0-i486-1_rlw.txz a Python extension for scientific computing
numpy-1.8.0-x86_64-1_rlw.txz a Python extension for scientific computing