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neofetch/neofetch

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#!/usr/bin/env bash
# set -x
# vim: noai:ts=4:sw=4:expandtab
#
# Neofetch: Simple system information script.
# https://github.com/dylanaraps/neofetch
#
# Created by Dylan Araps
# https://github.com/dylanaraps/
bash_version="${BASH_VERSION/.*}"
sys_locale="${LANG:-C}"
XDG_CONFIG_HOME="${XDG_CONFIG_HOME:-${HOME}/.config}"
old_ifs="$IFS"
# Speed up script by not using unicode.
export LC_ALL=C
export LANG=C
# Add /usr/xpg4/bin, /usr/sbin, and /sbin to PATH.
export PATH="/usr/xpg4/bin:/usr/sbin:/sbin:${PATH}"
# Set no case match.
shopt -s nocasematch
# Reset colors and bold.
reset="\033[0m"
# DETECT INFORMATION
get_os() {
# $kernel_name is set in a function called cache_uname and is
# just the output of "uname -s".
case "$kernel_name" in
"Linux" | "GNU"*) os="Linux" ;;
"Darwin") os="$(sw_vers -productName)" ;;
*"BSD" | "DragonFly" | "Bitrig") os="BSD" ;;
"CYGWIN"*) os="Windows" ;;
"SunOS") os="Solaris" ;;
"Haiku") os="Haiku" ;;
"MINIX") os="MINIX" ;;
*)
printf "%s\n" "Unknown OS detected: '$kernel_name', aborting..." >&2
printf "%s\n" "Open an issue on GitHub to add support for your OS." >&2
exit 1
;;
esac
}
get_distro() {
[[ "$distro" ]] && return
case "$os" in
"Linux" | "BSD" | "MINIX")
if [[ "$(< /proc/version)" == *"Microsoft"* || "$(< /proc/sys/kernel/osrelease)" == *"Microsoft"* ]]; then
case "$distro_shorthand" in
"on") distro="$(lsb_release -sir) [Windows 10]" ;;
"tiny") distro="Windows 10" ;;
*) distro="$(lsb_release -sd) on Windows 10" ;;
esac
ascii_distro="Windows 10"
elif [[ -f "/etc/GoboLinuxVersion" ]]; then
case "$distro_shorthand" in
"on" | "tiny") distro="GoboLinux" ;;
*) distro="GoboLinux $(< /etc/GoboLinuxVersion)"
esac
elif [[ -f "/etc/redstar-release" ]]; then
case "$distro_shorthand" in
"on" | "tiny") distro="Red Star OS" ;;
*) distro="Red Star OS $(awk -F'[^0-9*]' '$0=$2' /etc/redstar-release)"
esac
elif type -p lsb_release >/dev/null; then
case "$distro_shorthand" in
"on") lsb_flags="-sir" ;;
"tiny") lsb_flags="-si" ;;
*) lsb_flags="-sd" ;;
esac
distro="$(lsb_release $lsb_flags)"
elif type -p guix >/dev/null; then
distro="GuixSD"
elif type -p crux >/dev/null; then
distro="$(crux)"
case "$distro_shorthand" in
"on") distro="${distro//version}" ;;
"tiny") distro="${distro//version*}" ;;
esac
elif [[ -d "/system/app/" && -d "/system/priv-app" ]]; then
distro="Android $(getprop ro.build.version.release)"
elif [[ -f "/etc/os-release" || -f "/usr/lib/os-release" ]]; then
# Source the os-release file
for file in /etc/os-release /usr/lib/os-release; do
source "$file" 2>/dev/null && break
done
# Format the distro name.
case "$distro_shorthand" in
"on") distro="${NAME:-${DISTRIB_ID}} ${VERSION_ID:-${DISTRIB_RELEASE}}" ;;
"tiny") distro="${NAME:-${DISTRIB_ID:-${TAILS_PRODUCT_NAME}}}" ;;
"off") distro="${PRETTY_NAME:-${DISTRIB_DESCRIPTION}} ${UBUNTU_CODENAME}" ;;
esac
# Workarounds for distros that go against the os-release standard.
[[ -z "${distro// }" ]] && distro="$(awk '/BLAG/ {print $1; exit}' /etc/os-release /usr/lib/os-release)"
[[ -z "${distro// }" ]] && distro="$(awk -F'=' '{print $2; exit}' /etc/os-release /usr/lib/os-release)"
else
for release_file in /etc/*-release; do
distro+="$(< "$release_file")"
done
if [[ -z "$distro" ]]; then
case "$distro_shorthand" in
"on" | "tiny") distro="$kernel_name" ;;
*) distro="$kernel_name $kernel_version" ;;
esac
distro="${distro/DragonFly/DragonFlyBSD}"
# Workarounds for FreeBSD based distros.
[[ -f "/etc/pcbsd-lang" ]] && distro="PCBSD"
[[ -f "/etc/rc.conf.trueos" ]] && distro="TrueOS"
[[ -f "/etc/pacbsd-release" ]] && distro="PacBSD" # /etc/pacbsd-release is an empty file
fi
fi
distro="$(trim_quotes "$distro")"
;;
"Mac OS X")
osx_version="$(sw_vers -productVersion)"
osx_build="$(sw_vers -buildVersion)"
case "$osx_version" in
"10.4"*) codename="Mac OS X Tiger" ;;
"10.5"*) codename="Mac OS X Leopard" ;;
"10.6"*) codename="Mac OS X Snow Leopard" ;;
"10.7"*) codename="Mac OS X Lion" ;;
"10.8"*) codename="OS X Mountain Lion" ;;
"10.9"*) codename="OS X Mavericks" ;;
"10.10"*) codename="OS X Yosemite" ;;
"10.11"*) codename="OS X El Capitan" ;;
"10.12"*) codename="macOS Sierra" ;;
*) codename="macOS" ;;
esac
distro="$codename $osx_version $osx_build"
case "$distro_shorthand" in
"on") distro="${distro/ ${osx_build}}" ;;
"tiny")
case "$osx_version" in
"10."[4-7]*) distro="${distro/${codename}/Mac OS X}" ;;
"10."[8-9]* | "10.1"[0-1]*) distro="${distro/${codename}/OS X}" ;;
"10.12"*) distro="${distro/${codename}/macOS}" ;;
esac
distro="${distro/ ${osx_build}}"
;;
esac
;;
"iPhone OS")
distro="iOS $(sw_vers -productVersion)"
# "uname -m" doesn't print architecture on iOS so we force it off.
os_arch="off"
;;
"Windows")
distro="$(wmic os get Caption /value)"
# Strip crap from the output of wmic.
distro="${distro/Caption'='}"
distro="${distro/Microsoft }"
;;
"Solaris")
case "$distro_shorthand" in
"on" | "tiny") distro="$(awk 'NR==1{print $1 " " $3;}' /etc/release)" ;;
*) distro="$(awk 'NR==1{print $1 " " $2 " " $3;}' /etc/release)" ;;
esac
distro="${distro/\(*}"
;;
"Haiku")
distro="$(uname -sv | awk '{print $1 " " $2}')"
;;
esac
[[ -z "$distro" ]] && distro="$os (Unknown)"
# Get OS architecture.
[[ "$os_arch" == "on" ]] && \
distro+=" ${machine_arch}"
[[ "${ascii_distro:-auto}" == "auto" ]] && \
ascii_distro="$(trim "$distro")"
}
get_model() {
case "$os" in
"Linux")
if [[ -d "/system/app/" && -d "/system/priv-app" ]]; then
model="$(getprop ro.product.brand) $(getprop ro.product.model)"
elif [[ -f /sys/devices/virtual/dmi/id/product_name ||
-f /sys/devices/virtual/dmi/id/product_version ]]; then
model="$(< /sys/devices/virtual/dmi/id/product_name)"
model+=" $(< /sys/devices/virtual/dmi/id/product_version)"
elif [[ -f /sys/firmware/devicetree/base/model ]]; then
model="$(< /sys/firmware/devicetree/base/model)"
elif [[ -f /tmp/sysinfo/model ]]; then
model="$(< /tmp/sysinfo/model)"
fi
;;
"Mac OS X") model="$(sysctl -n hw.model)" ;;
"iPhone OS")
case "$machine_arch" in
"iPad1,1") model="iPad" ;;
"iPad2,"[1-4]) model="iPad2" ;;
"iPad3,"[1-3]) model="iPad3" ;;
"iPad3,"[4-6]) model="iPad4" ;;
"iPad4,"[1-3]) model="iPad Air" ;;
"iPad5,"[3-4]) model="iPad Air 2" ;;
"iPad6,"[7-8]) model="iPad Pro (12.9 Inch)" ;;
"iPad6,"[3-4]) model="iPad Pro (9.7 Inch)" ;;
"iPad2,"[5-7]) model="iPad mini" ;;
"iPad4,"[4-6]) model="iPad mini 2" ;;
"iPad4,"[7-9]) model="iPad mini 3" ;;
"iPad5,"[1-2]) model="iPad mini 4" ;;
"iPhone1,1") model="iPhone" ;;
"iPhone1,2") model="iPhone 3G" ;;
"iPhone2,1") model="iPhone 3GS" ;;
"iPhone3,"[1-3]) model="iPhone 4" ;;
"iPhone4,1") model="iPhone 4S" ;;
"iPhone5,"[1-2]) model="iPhone 4" ;;
"iPhone5,"[3-4]) model="iPhone 5c" ;;
"iPhone6,"[1-2]) model="iPhone 5s" ;;
"iPhone7,2") model="iPhone 6" ;;
"iPhone7,1") model="iPhone 6 Plus" ;;
"iPhone8,1") model="iPhone 6s" ;;
"iPhone8,2") model="iPhone 6s Plus" ;;
"iPhone8,4") model="iPhone SE" ;;
"iPhone9,1" | "iPhone9,3") model="iPhone 7" ;;
"iPhone9,2" | "iPhone9,4") model="iPhone 7 Plus" ;;
"iPod1,1") model="iPod touch" ;;
"ipod2,1") model="iPod touch 2G" ;;
"ipod3,1") model="iPod touch 3G" ;;
"ipod4,1") model="iPod touch 4G" ;;
"ipod5,1") model="iPod touch 5G" ;;
"ipod7,1") model="iPod touch 6G" ;;
esac
;;
"BSD" | "MINIX")
model="$(sysctl -n hw.vendor hw.product)"
;;
"Windows")
model="$(wmic computersystem get manufacturer,model /value)"
model="${model/Manufacturer'='}"
model="${model/Model'='}"
;;
"Solaris")
model="$(prtconf -b | awk -F':' '/banner-name/ {printf $2}')"
;;
esac
# Remove dummy OEM info.
model="${model//To be filled by O.E.M.}"
model="${model//To Be Filled*}"
model="${model//OEM*}"
model="${model//Not Applicable}"
model="${model//System Product Name}"
model="${model//System Version}"
model="${model//Undefined}"
model="${model//Default string}"
model="${model//Not Specified}"
}
get_title() {
user="${USER:-$(whoami || printf "%s" "${HOME/*\/}")}"
hostname="${HOSTNAME:-$(hostname)}"
title="${title_color}${bold}${user}${at_color}@${title_color}${bold}${hostname}"
length="$((${#user} + ${#hostname} + 1))"
}
get_kernel() {
case "$kernel_shorthand" in
"on") kernel="$kernel_version" ;;
"off") kernel="$kernel_name $kernel_version" ;;
esac
# Hide kernel info if it's identical to the distro info.
if [[ "$os" =~ (BSD|MINIX) && "$distro" == *"$kernel_name"* ]]; then
case "$distro_shorthand" in
"on" | "tiny") kernel="$kernel_version" ;;
*) unset kernel ;;
esac
fi
}
get_uptime() {
# Since Haiku's uptime cannot be fetched in seconds, a case outside
# the usual case is needed.
case "$os" in
"Haiku")
uptime="$(uptime -u)"
uptime="${uptime/up }"
;;
*)
# Get uptime in seconds.
case "$os" in
"Linux" | "Windows" | "MINIX")
seconds="$(< /proc/uptime)"
seconds="${seconds/.*}"
;;
"Mac OS X" | "iPhone OS" | "BSD")
boot="$(sysctl -n kern.boottime)"
boot="${boot/'{ sec = '}"
boot="${boot/,*}"
# Get current date in seconds.
now="$(date +%s)"
seconds="$((now - boot))"
;;
"Solaris")
seconds="$(kstat -p unix:0:system_misc:snaptime | awk '{print $2}')"
seconds="${seconds/.*}"
;;
esac
days="$((seconds / 60 / 60 / 24)) days"
hours="$((seconds / 60 / 60 % 24)) hours"
mins="$((seconds / 60 % 60)) minutes"
# Format the days, hours and minutes.
strip_date() {
case "$1" in
"0 "*) unset "${1/* }" ;;
"1 "*) printf "%s" "${1/s}" ;;
*) printf "%s" "$1" ;;
esac
}
days="$(strip_date "$days")"
hours="$(strip_date "$hours")"
mins="$(strip_date "$mins")"
uptime="${days:+$days, }${hours:+$hours, }${mins}"
uptime="${uptime%', '}"
uptime="${uptime:-${seconds} seconds}"
;;
esac
# Make the output of uptime smaller.
case "$uptime_shorthand" in
"on")
uptime="${uptime/minutes/mins}"
uptime="${uptime/minute/min}"
uptime="${uptime/seconds/secs}"
;;
"tiny")
uptime="${uptime/ days/d}"
uptime="${uptime/ day/d}"
uptime="${uptime/ hours/h}"
uptime="${uptime/ hour/h}"
uptime="${uptime/ minutes/m}"
uptime="${uptime/ minute/m}"
uptime="${uptime/ seconds/s}"
uptime="${uptime//,}"
;;
esac
}
get_packages() {
# Remove /usr/games from $PATH.
# This solves issues with neofetch opening the "pacman" game.
local PATH=":${PATH}:"
local PATH="${PATH/':/usr/games:'/:}"
local PATH="${PATH%:}"
local PATH="${PATH#:}"
case "$os" in
"Linux" | "BSD" | "iPhone OS" | "Solaris")
type -p pacman >/dev/null && \
packages="$(pacman -Qq --color never | wc -l)"
type -p dpkg >/dev/null && \
packages="$((packages+=$(dpkg --get-selections | grep -cv deinstall$)))"
type -p pkgtool >/dev/null && \
packages="$((packages+=$(ls -1 /var/log/packages | wc -l)))"
type -p rpm >/dev/null && \
packages="$((packages+=$(rpm -qa | wc -l)))"
type -p xbps-query >/dev/null && \
packages="$((packages+=$(xbps-query -l | wc -l)))"
type -p pkginfo >/dev/null && \
packages="$((packages+=$(pkginfo -i | wc -l)))"
type -p emerge >/dev/null && \
packages="$((packages+=$(ls -d /var/db/pkg/*/* | wc -l)))"
type -p nix-env >/dev/null && \
packages="$((packages+=$(ls -d -1 /nix/store/*/ | wc -l)))"
type -p guix >/dev/null && \
packages="$((packages+=$(ls -d -1 /gnu/store/*/ | wc -l)))"
type -p apk >/dev/null && \
packages="$((packages+=$(apk info | wc -l)))"
type -p opkg >/dev/null && \
packages="$((packages+=$(opkg list-installed | wc -l)))"
type -p pacman-g2 >/dev/null && \
packages="$((packages+=$(pacman-g2 -Q | wc -l)))"
type -p cave >/dev/null && \
packages="$((packages+=$(ls -d -1 /var/db/paludis/repositories/cross-installed/*/data/* /var/db/paludis/repositories/installed/data/* | wc -l)))"
type -p lvu >/dev/null && \
packages="$((packages+=$(lvu installed | wc -l)))"
type -p tce-status >/dev/null && \
packages="$((packages+=$(tce-status -i | wc -l)))"
type -p Compile >/dev/null && \
packages="$((packages+=$(ls -d -1 /Programs/*/ | wc -l)))"
type -p eopkg >/dev/null && \
packages="$((packages+=$(eopkg list-installed | wc -l)))"
type -p pkg_info >/dev/null && \
packages="$((packages+=$(pkg_info | wc -l)))"
if type -p pkg >/dev/null; then
case "$kernel_name" in
"FreeBSD") packages="$((packages+=$(pkg info | wc -l)))" ;;
*)
packages="$((packages+=$(ls -1 /var/db/pkg | wc -l)))"
((packages == 0)) && packages="$((packages+=$(pkg list | wc -l)))"
esac
fi
;;
"Mac OS X" | "MINIX")
[[ -d "/usr/local/bin" ]] && \
packages="$(($(ls -l /usr/local/bin/ | grep -cv "\(../Cellar/\|brew\)") - 1))"
type -p port >/dev/null && \
packages="$((packages + $(port installed | wc -l) - 1))"
type -p brew >/dev/null && \
packages="$((packages + $(find /usr/local/Cellar -maxdepth 1 | wc -l) - 1))"
type -p pkgin >/dev/null && \
packages="$((packages + $(pkgin list | wc -l)))"
;;
"Windows")
packages="$(cygcheck -cd | wc -l)"
# Count chocolatey packages.
[[ -d "/cygdrive/c/ProgramData/chocolatey/lib" ]] && \
packages="$((packages+=$(ls -1 /cygdrive/c/ProgramData/chocolatey/lib | wc -l)))"
;;
"Haiku")
packages="$(ls -1 /boot/system/package-links | wc -l)"
;;
esac
((packages == 0)) && unset packages
}
get_shell() {
case "$shell_path" in
"on") shell="$SHELL " ;;
"off") shell="${SHELL##*/} " ;;
esac
if [[ "$shell_version" == "on" ]]; then
case "${SHELL##*/}" in
"bash") shell+="${BASH_VERSION/-*}" ;;
"sh" | "ash" | "dash") ;;
"mksh" | "ksh")
shell+="$("$SHELL" -c 'printf "%s" "$KSH_VERSION"')"
shell="${shell/ * KSH}"
shell="${shell/version}"
;;
*)
shell+="$("$SHELL" --version 2>&1)"
shell="${shell/ ${SHELL##*/}}"
;;
esac
# Remove unwanted info.
shell="${shell/, version}"
shell="${shell/xonsh\//xonsh }"
shell="${shell/options*}"
shell="${shell/\(*\)}"
fi
}
get_de() {
# If function was run, stop here.
((de_run == 1)) && return
case "$os" in
"Mac OS X") de="Aqua" ;;
"Windows")
case "$distro" in
"Windows 8"* | "Windows 10"*) de="Modern UI/Metro" ;;
*) de="Aero" ;;
esac
;;
*)
((wm_run != 1)) && get_wm
if [[ "$XDG_CURRENT_DESKTOP" ]]; then
de="${XDG_CURRENT_DESKTOP/'X-'}"
de="${de/Budgie:GNOME/Budgie}"
elif [[ "$DESKTOP_SESSION" ]]; then
de="${DESKTOP_SESSION/ *}"
elif [[ "$GNOME_DESKTOP_SESSION_ID" ]]; then
de="GNOME"
elif [[ "$MATE_DESKTOP_SESSION_ID" ]]; then
de="MATE"
fi
# When a window manager is started from a display manager
# the desktop variables are sometimes also set to the
# window manager name. This checks to see if WM == DE
# and dicards the DE value.
[[ "$wm" && "$de" =~ $wm ]] && { unset -v de; return; }
;;
esac
# Fallback to using xprop.
[[ -n "$DISPLAY" && -z "$de" ]] && \
de="$(xprop -root | awk '/KDE_SESSION_VERSION|^_MUFFIN|xfce4|xfce5/')"
# Format strings.
case "$de" in
"KDE_SESSION_VERSION"*) de="KDE${de/* = }" ;;
*"TDE_FULL_SESSION"*) de="Trinity" ;;
*"MUFFIN"* | "Cinnamon") de="$(cinnamon --version)"; de="${de:-Cinnamon}" ;;
*"xfce4"*) de="XFCE4" ;;
*"xfce5"*) de="XFCE5" ;;
*"xfce"*) de="XFCE" ;;
*"mate"*) de="MATE" ;;
esac
# Log that the function was run.
de_run=1
}
get_wm() {
# If function was run, stop here.
((wm_run == 1)) && return
if [[ -n "$DISPLAY" && "$os" != "Mac OS X" ]]; then
id="$(xprop -root -notype | awk '$1=="_NET_SUPPORTING_WM_CHECK:"{print $5}')"
wm="$(xprop -id "$id" -notype -f _NET_WM_NAME 8t)"
wm="${wm/*_NET_WM_NAME = }"
wm="${wm/\"}"
wm="${wm/\"*}"
# Fallback for Wayland wms.
[[ "$wm" == "xwlc" ]] && \
wm="$(ps -e | grep -m 1 -o -F -e "sway" -e "orbment" -e "velox" -e "orbital")"
else
case "$os" in
"Mac OS X") wm="Quartz Compositor" ;;
"Windows")
wm="$(tasklist | grep -m 1 -o -F -e "bugn" -e "Windawesome" -e "blackbox" -e "emerge" -e "litestep")"
[[ "$wm" == "blackbox" ]] && wm="bbLean (Blackbox)"
wm="${wm:+$wm, }Explorer"
;;
esac
fi
# Log that the function was run.
wm_run=1
}
get_wm_theme() {
((wm_run != 1)) && get_wm
((de_run != 1)) && get_de
case "$wm" in
"E16") wm_theme="$(awk -F "= " '/theme.name/ {print $2}' "${HOME}/.e16/e_config--0.0.cfg")";;
"Sawfish") wm_theme="$(awk -F ")" '/\(quote default-frame-style/ {print $2}' "${HOME}/.sawfish/custom")" ;;
"Cinnamon" | "Muffin" | "Mutter (Muffin)")
detheme="$(gsettings get org.cinnamon.theme name)"
wm_theme="$(gsettings get org.cinnamon.desktop.wm.preferences theme)"
wm_theme="$detheme (${wm_theme})"
;;
"Compiz" | "Mutter" | "GNOME Shell" | "Gala")
if type -p gsettings >/dev/null; then
wm_theme="$(gsettings get org.gnome.shell.extensions.user-theme name)"
[[ -z "${wm_theme//\'}" ]] && \
wm_theme="$(gsettings get org.gnome.desktop.wm.preferences theme)"
elif type -p gconftool-2 >/dev/null; then
wm_theme="$(gconftool-2 -g /apps/metacity/general/theme)"
fi
;;
"Metacity"*)
if [[ "$de" == "Deepin" ]]; then
wm_theme="$(gsettings get com.deepin.wrap.gnome.desktop.wm.preferences theme)"
elif [[ "$de" == "MATE" ]]; then
wm_theme="$(gsettings get org.mate.Marco.general theme)"
else
wm_theme="$(gconftool-2 -g /apps/metacity/general/theme)"
fi
;;
"E17" | "Enlightenment")
if type -p eet >/dev/null; then
wm_theme="$(eet -d "${HOME}/.e/e/config/standard/e.cfg" config | awk '/value \"file\" string.*.edj/ {print $4}')"
wm_theme="${wm_theme##*/}"
wm_theme="${wm_theme%.*}"
fi
;;
"Fluxbox")
[[ -f "${HOME}/.fluxbox/init" ]] && \
wm_theme="$(awk -F "/" '/styleFile/ {print $NF}' "${HOME}/.fluxbox/init")"
;;
"IceWM"*)
[[ -f "${HOME}/.icewm/theme" ]] && \
wm_theme="$(awk -F "[\",/]" '!/#/ {print $2}' "${HOME}/.icewm/theme")"
;;
"Openbox")
if [[ "$de" == "LXDE" && -f "${HOME}/.config/openbox/lxde-rc.xml" ]]; then
ob_file="lxde-rc"
elif [[ -f "${HOME}/.config/openbox/rc.xml" ]]; then
ob_file="rc"
fi
wm_theme="$(awk -F "[<,>]" '/<theme/ {getline; print $3}' "${XDG_CONFIG_HOME}/openbox/${ob_file}.xml")";
;;
"PekWM")
[[ -f "${HOME}/.pekwm/config" ]] && \
wm_theme="$(awk -F "/" '/Theme/ {gsub(/\"/,""); print $NF}' "${HOME}/.pekwm/config")"
;;
"Xfwm4")
[[ -f "${HOME}/.config/xfce4/xfconf/xfce-perchannel-xml/xfwm4.xml" ]] && \
wm_theme="$(xfconf-query -c xfwm4 -p /general/theme)"
;;
"KWin"*)
kde_config_dir
if [[ -f "${kde_config_dir}/kwinrc" ]]; then
wm_theme="$(awk '/theme=kwin4/{gsub(/theme=kwin4_decoration_qml_/,"",$0); print $0; exit}' "${kde_config_dir}/kwinrc")"
[[ -z "$wm_theme" ]] && wm_theme="$(awk '/library=org.kde/{gsub(/library=org.kde./,"",$0); print $0; exit}' "${kde_config_dir}/kwinrc")"
[[ -z "$wm_theme" ]] && wm_theme="$(awk '/PluginLib=kwin3_/{gsub(/PluginLib=kwin3_/,"",$0); print $0; exit}' "${kde_config_dir}/kwinrc")"
elif [[ -f "${kde_config_dir}/kdebugrc" ]]; then
wm_theme="$(awk '/(decoration)/ {gsub(/\[/,"",$1); print $1; exit}' "${kde_config_dir}/kdebugrc")"
fi
;;
"Quartz Compositor")
wm_theme="$(/usr/libexec/PlistBuddy -c "Print AppleAquaColorVariant" ~/Library/Preferences/.GlobalPreferences.plist)"
if [[ -z "$wm_theme" ]] || ((wm_theme == 1)); then
wm_theme="Blue"
else
wm_theme="Graphite"
fi
;;
*"Explorer")
path="/proc/registry/HKEY_CURRENT_USER/Software/Microsoft"
path+="/Windows/CurrentVersion/Themes/CurrentTheme"
wm_theme="$(head -n1 "$path")"
wm_theme="${wm_theme##*\\}"
wm_theme="${wm_theme%.*}"
;;
"Blackbox" | "bbLean"*)
path="$(wmic process get ExecutablePath | grep -F "blackbox")"
path="${path//\\/\/}"
wm_theme="$(grep "^session\.styleFile:" "${path/\.exe/.rc}")"
wm_theme="${wm_theme/'session.styleFile: '}"
wm_theme="${wm_theme##*\\}"
wm_theme="${wm_theme%.*}"
;;
esac
wm_theme="$(trim_quotes "$wm_theme")"
wm_theme="$(uppercase "$wm_theme")"
}
get_cpu() {
# NetBSD emulates the Linux /proc filesystem instead of using sysctl for hw
# information so we have to use this block below which temporarily sets the
# OS to "Linux" for the duration of this function.
[[ "$distro" == "NetBSD"* ]] && local os="Linux"
case "$os" in
"Linux" | "MINIX" | "Windows")
# Get CPU name.
case "$distro" in
"Android"*) cpu="$(getprop ro.product.board)" ;;
*)
case "$machine_arch" in
"frv" | "hppa" | "m68k" | "openrisc" | "or"* | "powerpc" | "ppc"* | "sparc"*)
cpu="$(awk -F':' '/^cpu\t|^CPU/ {printf $2; exit}' /proc/cpuinfo)"
;;
"s390"*)
cpu="$(awk -F'=' '/machine/ {print $4; exit}' /proc/cpuinfo)"
;;
"ia64" | "m32r")
cpu="$(awk -F':' '/model/ {print $2; exit}' /proc/cpuinfo)"
[[ -z "$cpu" ]] && cpu="$(awk -F':' '/family/ {printf $2; exit}' /proc/cpuinfo)"
;;
*)
cpu="$(awk -F ': | @' '/model name|Processor|^cpu model|chip type|^cpu type/ {printf $2; exit}' /proc/cpuinfo)"
;;
esac
;;
esac
speed_dir="/sys/devices/system/cpu/cpu0/cpufreq"
temp_dir="/sys/class/hwmon/hwmon0/temp1_input"
# Get CPU speed.
if [[ -d "$speed_dir" ]]; then
# Fallback to bios_limit if $speed_type fails.
speed="$(< "${speed_dir}/${speed_type}")" || \
speed="$(< "${speed_dir}/bios_limit")" || \
speed="$(< "${speed_dir}/scaling_max_freq")"
speed="$((speed / 100000))"
else
speed="$(awk -F ': |\\.' '/cpu MHz/ {printf $2; exit}' /proc/cpuinfo)"
speed="$((speed / 100))"
fi
# Get CPU temp.
if [[ "$cpu_temp" != "off" && -f "$temp_dir" ]]; then
temp="$(< "$temp_dir")"
temp="$((temp * 100 / 10000))"
# Convert to fahrenheit if enabled.
[[ "$cpu_temp" == "F" ]] && temp="$((temp * 90 / 50 + 320))"
# Format the output.
temp="[${temp/${temp: -1}}.${temp: -1}°${cpu_temp:-C}]"
fi
# Get CPU cores.
case "$cpu_cores" in
"logical" | "on") cores="$(grep -c "^processor" /proc/cpuinfo)" ;;
"physical") cores="$(grep "^core id" /proc/cpuinfo | sort -u | wc -l)" ;;
esac
;;
"Mac OS X")
cpu="$(sysctl -n machdep.cpu.brand_string)"
# Get CPU cores.
case "$cpu_cores" in
"logical" | "on") cores="$(sysctl -n hw.logicalcpu_max)" ;;
"physical") cores="$(sysctl -n hw.physicalcpu_max)" ;;
esac
;;
"iPhone OS")
case "$machine_arch" in
"iPhone1,"[1-2] | "iPod1,1") cpu="Samsung S5L8900 (1) @ 412MHz" ;;
"iPhone2,1") cpu="Samsung S5PC100 (1) @ 600MHz" ;;
"iPhone3,"[1-3] | "iPod4,1") cpu="Apple A4 (1) @ 800MHz" ;;
"iPhone4,1" | "iPod5,1") cpu="Apple A5 (2) @ 800MHz" ;;
"iPhone5,"[1-4]) cpu="Apple A6 (2) @ 1.3GHz" ;;
"iPhone6,"[1-2]) cpu="Apple A7 (2) @ 1.3GHz" ;;
"iPhone7,"[1-2]) cpu="Apple A8 (2) @ 1.4GHz" ;;
"iPhone8,"[1-4]) cpu="Apple A9 (2) @ 1.85GHz" ;;
"iPhone9,"[1-4]) cpu="Apple A10 Fusion (4) @ 2.34GHz" ;;
"iPod2,1") cpu="Samsung S5L8720 (1) @ 533MHz" ;;
"iPod3,1") cpu="Samsung S5L8922 (1) @ 600MHz" ;;
"iPod7,1") cpu="Apple A8 (2) @ 1.1GHz" ;;
"iPad1,1") cpu="Apple A4 (1) @ 1GHz" ;;
"iPad2,"[1-7]) cpu="Apple A5 (2) @ 1GHz" ;;
"iPad3,"[1-3]) cpu="Apple A5X (2) @ 1GHz" ;;
"iPad3,"[4-6]) cpu="Apple A6X (2) @ 1.4GHz" ;;
"iPad4,"[1-3]) cpu="Apple A7 (2) @ 1.4GHz" ;;
"iPad4,"[4-9]) cpu="Apple A7 (2) @ 1.4GHz" ;;
"iPad5,"[1-2]) cpu="Apple A8 (2) @ 1.5GHz" ;;
"iPad5,"[3-4]) cpu="Apple A8X (3) @ 1.5GHz" ;;
"iPad6,"[3-4]) cpu="Apple A9X (2) @ 2.16GHz" ;;
"iPad6,"[7-8]) cpu="Apple A9X (2) @ 2.26GHz" ;;
esac
;;
"BSD")
# Get CPU name.
cpu="$(sysctl -n hw.model)"
cpu="${cpu/[0-9]\.*}"
cpu="${cpu/ @*}"
# Get CPU speed.
speed="$(sysctl -n hw.cpuspeed)"
[[ -z "$speed" ]] && speed="$(sysctl -n hw.clockrate)"
speed="$((speed / 100))"
# Get CPU cores.
cores="$(sysctl -n hw.ncpu)"
# Get CPU temp.
if [[ "$cpu_temp" != "off" ]]; then
case "$kernel_name" in
"FreeBSD"* | "DragonFly"*)
temp="$(sysctl -n dev.cpu.0.temperature)"
temp="${temp/C}"
;;
"OpenBSD"* | "Bitrig"*)
temp="$(sysctl -n hw.sensors.lm0.temp0)"
temp="${temp/ degC}"
;;
esac
# Convert to fahrenheit if enabled.
if [[ "$cpu_temp" == "F" ]]; then
temp="${temp//.}"
temp="$((temp * 90 / 50 + 320))"
temp="[${temp/${temp: -1}}.${temp: -1}°F]"
else
temp="[${temp}°C]"
fi
fi
;;
"Solaris")
# Get CPU name.
cpu="$(psrinfo -pv)"
cpu="${cpu//*$'\n'}"
cpu="${cpu/[0-9]\.*}"
cpu="${cpu/ @*}"
# Get CPU speed.
speed="$(psrinfo -v | awk '/operates at/ {print $6; exit}')"
speed="$((speed / 100))"
# Get CPU cores.
case "$cpu_cores" in
"logical" | "on") cores="$(kstat -m cpu_info | grep -c -F "chip_id")" ;;
"physical") cores="$(psrinfo -p)" ;;
esac
;;
"Haiku")
# Get CPU name.
cpu="$(sysinfo -cpu | awk -F '\\"' '/CPU #0/ {print $2}')"
cpu="${cpu/@*}"
# Get CPU speed.
speed="$(sysinfo -cpu | awk '/running at/ {print $NF; exit}')"
speed="${speed/MHz}"
speed="$((speed / 100))"
# Get CPU cores.
cores="$(sysinfo -cpu | grep -c -F 'CPU #')"
;;
esac
# Fix for speeds under 1ghz.
if [[ "$speed" ]]; then
if [[ -z "${speed:1}" ]]; then
speed="0.${speed}"
else
speed="${speed:0:1}.${speed:1}"
fi
cpu="$cpu @ ${speed}GHz $temp"
fi
# Remove un-needed patterns from cpu output.
cpu="${cpu//(TM)}"
cpu="${cpu//(tm)}"
cpu="${cpu//(R)}"
cpu="${cpu//(r)}"
cpu="${cpu//CPU}"
cpu="${cpu//Processor}"
cpu="${cpu//Dual-Core}"
cpu="${cpu//Quad-Core}"
cpu="${cpu//Six-Core}"
cpu="${cpu//Eight-Core}"
cpu="${cpu//Core}"
cpu="${cpu//with Radeon * Graphics}"
cpu="${cpu//, altivec supported}"
cpu="${cpu//FPU*}"
# Add CPU cores to the output.
[[ "$cpu_cores" != "off" && "$cores" ]] && \
cpu="${cpu/@/(${cores}) @}"
# Remove CPU speed from the output.
[[ "$cpu_speed" == "off" ]] && \
cpu="${cpu/@ *GHz}"
# Make the output of CPU shorter.
case "$cpu_shorthand" in
"name") cpu="${cpu/@*}" ;;
"speed") cpu="${cpu#*@ }" ;;
"on" | "tiny")
cpu="${cpu/AMD }"
cpu="${cpu/Intel }"
cpu="${cpu/Core? Duo }"
[[ "$cpu_shorthand" == "tiny" ]] && cpu="${cpu/@*}"
;;
esac
}
get_cpu_usage() {
case "$os" in
"Windows")
cpu_usage="$(wmic cpu get loadpercentage /value)"
cpu_usage="${cpu_usage/LoadPercentage'='}"
cpu_usage="${cpu_usage//[[:space:]]}"
;;
*)
# Get CPU cores if unset.
if [[ "$cpu_cores" != "logical" ]]; then
case "$os" in
"Linux" | "MINIX") cores="$(grep -c "^processor" /proc/cpuinfo)" ;;
"Mac OS X") cores="$(sysctl -n hw.logicalcpu_max)" ;;
"BSD") cores="$(sysctl -n hw.ncpu)" ;;
"Solaris") cores="$(kstat -m cpu_info | grep -c -F "chip_id")" ;;
"Haiku") cores="$(sysinfo -cpu | grep -c -F 'CPU #')" ;;
"iPhone OS") cores="${cpu/*\(}"; cores="${cores/\)*}" ;;
esac
fi
cpu_usage="$(ps aux | awk 'BEGIN {sum=0} {sum+=$3}; END {print sum}')"
cpu_usage="$((${cpu_usage/\.*} / ${cores:-1}))"
;;
esac
# Print the bar.
case "$cpu_display" in
"bar") cpu_usage="$(bar "$cpu_usage" 100)" ;;
"infobar") cpu_usage="${cpu_usage}% $(bar "$cpu_usage" 100)" ;;
"barinfo") cpu_usage="$(bar "$cpu_usage" 100) ${cpu_usage}%" ;;
*) cpu_usage="${cpu_usage}%" ;;
esac
}
get_gpu() {
case "$os" in
"Linux")
# Read GPUs into array.
IFS=$'\n'
gpus=($(lspci -mm | awk -F '\\"|\\" \\"' '/"Display|"3D|"VGA/ {print $3 " " $4}'))
IFS="$old_ifs"
# Number the GPUs if more than one exists.
((${#gpus[@]} > 1)) && gpu_num=1
for gpu in "${gpus[@]}"; do
# GPU shorthand tests.
[[ "$gpu_type" == "dedicated" && "$gpu" =~ (i|I)ntel ]] || \
[[ "$gpu_type" == "integrated" && ! "$gpu" =~ (i|I)ntel ]] && \
{ unset -v gpu; continue; }
case "$gpu" in
*"advanced"*)
gpu="${gpu/'[AMD/ATI]' }"
gpu="${gpu/'[AMD]' }"
gpu="${gpu/OEM }"
gpu="${gpu/Advanced Micro Devices, Inc.}"
gpu="${gpu/ \/ *}"
gpu="${gpu/*\[}"
gpu="${gpu/\]*}"
gpu="AMD $gpu"
;;
*"nvidia"*)
gpu="${gpu/*\[}"
gpu="${gpu/\]*}"
gpu="NVIDIA $gpu"
;;
*"intel"*)
gpu="Intel Integrated Graphics"
;;
*"virtualbox"*)
gpu="VirtualBox Graphics Adapter"
;;
esac
if [[ "$gpu_brand" == "off" ]]; then
gpu="${gpu/AMD }"
gpu="${gpu/NVIDIA }"
gpu="${gpu/Intel }"
fi
prin "${subtitle}${gpu_num}" "$gpu"
gpu_num="$((gpu_num+=1))"
done
return
;;
"Mac OS X")
if [[ -f "${cache_dir}/neofetch/gpu" ]]; then
source "${cache_dir}/neofetch/gpu"
else
gpu="$(system_profiler SPDisplaysDataType | awk -F': ' '/^\ *Chipset Model:/ {printf $2 ", "}')"
gpu="${gpu//'/ $'}"
gpu="${gpu%,*}"
cache "gpu" "$gpu"
fi
;;
"iPhone OS")
case "$machine_arch" in
"iPhone1,"[1-2]) gpu="PowerVR MBX Lite 3D" ;;
"iPhone5,"[1-4]) gpu="PowerVR SGX543MP3" ;;
"iPhone8,"[1-4]) gpu="PowerVR GT7600" ;;
"iPad3,"[1-3]) gpu="PowerVR SGX534MP4" ;;
"iPad3,"[4-6]) gpu="PowerVR SGX554MP4" ;;
"iPad5,"[3-4]) gpu="PowerVR GXA6850" ;;
"iPad6,"[3-8]) gpu="PowerVR 7XT" ;;
"iPhone2,1" | "iPhone3,"[1-3] | "iPod3,1" | "iPod4,1" | "iPad1,1")
gpu="PowerVR SGX535"
;;
"iPhone4,1" | "iPad2,"[1-7] | "iPod5,1")
gpu="PowerVR SGX543MP2"
;;
"iPhone6,"[1-2] | "iPad4,"[1-9])
gpu="PowerVR G6430"
;;
"iPhone7,"[1-2] | "iPod7,1" | "iPad5,"[1-2])
gpu="PowerVR GX6450"
;;
"iPod1,1" | "iPod2,1")
gpu="PowerVR MBX Lite"
;;
esac
;;
"BSD" | "Solaris" | "MINIX")
case "$kernel_name" in
"FreeBSD"* | "DragonFly"*)
gpu="$(pciconf -lv | grep -B 4 -F "VGA" | grep -F "device")"
gpu="${gpu/*device*= }"
gpu="$(trim_quotes "$gpu")"
;;
*)
gpu="$(glxinfo | grep -F 'OpenGL renderer string')"
gpu="${gpu/'OpenGL renderer string: '}"
;;
esac
;;
"Windows")
gpu="$(wmic path Win32_VideoController get caption /value)"
gpu="${gpu//Caption'='}"
;;
"Haiku")
gpu="$(listdev | grep -A2 -F 'device Display controller' | awk -F':' '/device beef/ {print $2}')"
;;
esac
if [[ "$gpu_brand" == "off" ]]; then
gpu="${gpu/AMD}"
gpu="${gpu/NVIDIA}"
gpu="${gpu/Intel}"
fi
}
get_memory() {
case "$os" in
"Linux" | "Windows")
# MemUsed = Memtotal + Shmem - MemFree - Buffers - Cached - SReclaimable
# Source: https://github.com/KittyKatt/screenFetch/issues/386#issuecomment-249312716
while IFS=":" read -r a b; do
case "$a" in
"MemTotal") mem_used="$((mem_used+=${b/kB}))"; mem_total="${b/kB}" ;;
"Shmem") mem_used="$((mem_used+=${b/kB}))" ;;
"MemFree" | "Buffers" | "Cached" | "SReclaimable") mem_used="$((mem_used-=${b/kB}))" ;;
esac
done < /proc/meminfo
mem_used="$((mem_used / 1024))"
mem_total="$((mem_total / 1024))"
;;
"Mac OS X" | "iPhone OS")
mem_total="$(($(sysctl -n hw.memsize) / 1024 / 1024))"
mem_wired="$(vm_stat | awk '/wired/ { print $4 }')"
mem_active="$(vm_stat | awk '/active / { printf $3 }')"
mem_compressed="$(vm_stat | awk '/occupied/ { printf $5 }')"
mem_used="$(((${mem_wired//.} + ${mem_active//.} + ${mem_compressed//.}) * 4 / 1024))"
;;
"BSD" | "MINIX")
# Mem total.
case "$kernel_name" in
"NetBSD"*) mem_total="$(($(sysctl -n hw.physmem64) / 1024 / 1024))" ;;
*) mem_total="$(($(sysctl -n hw.physmem) / 1024 / 1024))" ;;
esac
# Mem free.
case "$kernel_name" in
"NetBSD"*) mem_free="$(($(awk -F ':|kB' '/MemFree:/ {printf $2}' /proc/meminfo) / 1024))" ;;
"FreeBSD"* | "DragonFly"*)
mem_free="$(top -d 1 | awk -F ',' '/^Mem:/ {print $5}')"
mem_free="${mem_free/M Free}"
;;
"MINIX")
mem_free="$(top -d 1 | awk -F ',' '/^Memory:/ {print $2}')"
mem_free="${mem_free/M Free}"
;;
"OpenBSD"*) ;;
*) mem_free="$(($(vmstat | awk 'END{printf $5}') / 1024))" ;;
esac
# Mem used.
case "$kernel_name" in
"OpenBSD"*) mem_used="$(($(vmstat | awk 'END{printf $4}') / 1024))" ;;
*) mem_used="$((mem_total - mem_free))" ;;
esac
;;
"Solaris")
mem_total="$(prtconf | awk '/Memory/ {print $3}')"
mem_free="$(($(vmstat | awk 'NR==3{printf $5}') / 1024))"
mem_used="$((mem_total - mem_free))"
;;
"Haiku")
mem_total="$(($(sysinfo -mem | awk -F '\\/ |)' '{print $2; exit}') / 1024 / 1024))"
mem_used="$(sysinfo -mem | awk -F '\\/|)' '{print $2; exit}')"
mem_used="$((${mem_used/max} / 1024 / 1024))"
;;
esac
memory="${mem_used}MB / ${mem_total}MB"
# Bars.
case "$memory_display" in
"bar") memory="$(bar "${mem_used}" "${mem_total}")" ;;
"infobar") memory="${memory} $(bar "${mem_used}" "${mem_total}")" ;;
"barinfo") memory="$(bar "${mem_used}" "${mem_total}") ${memory}" ;;
esac
}
get_song() {
# This is absurdly long.
player="$(ps x | awk '!(/awk|Helper|Cache/) && /mpd|cmus|mocp|spotify|Google Play|iTunes.app|rhythmbox|banshee|amarok|deadbeef|audacious|xmms2d|gnome-music|lollypop|clementine|pragha|exaile|juk|bluemindo|guayadeque|yarock|qmmp/ {printf $5 " " $6; exit}')"
get_song_dbus() {
# Multiple players use an almost identical dbus command to get the information.
# This function saves us using the same command throughout the function.
song="$(\
dbus-send --print-reply --dest=org.mpris.MediaPlayer2."${1}" /org/mpris/MediaPlayer2 \
org.freedesktop.DBus.Properties.Get string:'org.mpris.MediaPlayer2.Player' string:'Metadata' |\
awk -F 'string "' '/string|array/ {printf "%s",$2; next}{print ""}' |\
awk -F '"' '/artist/ {a=$2} /title/ {t=$2} END{print a " - " t}'
)"
}
case "${player/*\/}" in
"mpd"*) song="$(mpc current)" ;;
"mocp"*) song="$(mocp -Q "%artist - %song")" ;;
"google play"*) song="$(gpmdp-remote current)" ;;
"rhythmbox"*) song="$(rhythmbox-client --print-playing)" ;;
"deadbeef"*) song="$(deadbeef --nowplaying-tf '%artist% - %title%')" ;;
"audacious"*) song="$(audtool current-song)" ;;
"xmms2d"*) song="$(xmms2 current -f '${artist} - ${title}')" ;;
"qmmp"*) song="$(qmmp --nowplaying '%p - %t')" ;;
"gnome-music"*) get_song_dbus "GnomeMusic" ;;
"lollypop"*) get_song_dbus "Lollypop" ;;
"clementine"*) get_song_dbus "clementine" ;;
"juk"*) get_song_dbus "juk" ;;
"bluemindo"*) get_song_dbus "Bluemindo" ;;
"guayadeque"*) get_song_dbus "guayadeque" ;;
"yarock"*) get_song_dbus "yarock" ;;
"cmus"*)
song="$(cmus-remote -Q | awk '/tag artist/ {$1=$2=""; print; print " - "} /tag title/ {$1=$2=""; print}')"
;;
"spotify"*)
case "$os" in
"Linux") get_song_dbus "spotify" ;;
"Mac OS X")
song="$(osascript -e 'tell application "Spotify" to artist of current track as string & " - " & name of current track as string')"
;;
esac
;;
"itunes"*)
song="$(osascript -e 'tell application "iTunes" to artist of current track as string & " - " & name of current track as string')"
;;
"banshee"*)
song="$(banshee --query-artist --query-title | awk -F':' '/^artist/ {a=$2} /^title/ {t=$2} END{print a " - " t}')"
;;
"amarok"*)
song="$(qdbus org.kde.amarok /Player GetMetadata | awk -F':' '/^artist/ {a=$2} /^title/ {t=$2} END{print a " - " t}')"
;;
"pragha"*)
song="$(pragha -c | awk -F':' '/^artist/ {a=$2} /^title/ {t=$2} END{print a " - " t}')"
;;
"exaile"*)
song="$(dbus-send --print-reply --dest=org.exaile.Exaile /org/exaile/Exaile \
org.exaile.Exaile.Query | awk -F':|,' '{if ($6 && $4) printf $6 " -" $4}')"
;;
esac
[[ "$(trim "$song")" = "-" ]] && unset -v song
# Display Artist and Title on separate lines.
if [[ "$song_shorthand" == "on" ]]; then
artist="${song/ -*}"
song="${song/$artist - }"
if [[ "$song" != "$artist" ]]; then
prin "Artist" "$artist"
prin "Song" "$song"
else
prin "$subtitle" "$song"
fi
fi
}
get_resolution() {
case "$os" in
"Linux" | "BSD" | "Solaris" | "MINIX")
if type -p xrandr >/dev/null; then
case "$refresh_rate" in
"on") resolution="$(xrandr --nograb --current | awk 'match($0,/[0-9]*\.[0-9]*\*/) {printf $1 " @ " substr($0,RSTART,RLENGTH) "Hz, "}')" ;;
"off") resolution="$(xrandr --nograb --current | awk '/\*/ {printf $1 ", "}')" ;;
esac
resolution="${resolution//\*}"
resolution="${resolution//\.[0-9][0-9]}"
elif type -p xdpyinfo >/dev/null; then
resolution="$(xdpyinfo | awk '/dimensions:/ {printf $2}')"
fi
;;
"Mac OS X")
if type -p screenresolution >/dev/null; then
resolution="$(screenresolution get | awk '/Display/ {printf $6 "Hz, "}')"
resolution="${resolution//x??@/ @ }"
else
resolution="$(system_profiler SPDisplaysDataType | awk '/Resolution:/ {printf $2"x"$4" @ "$6"Hz, "}')"
fi
scale_factor="$(/usr/libexec/PlistBuddy -c "Print DisplayAnyUserSets:0:0:Resolution" /Library/Preferences/com.apple.windowserver.plist)"
# If no refresh rate is empty.
[[ "$resolution" == *"@ Hz"* ]] && \
resolution="${resolution//@ Hz}"
((${scale_factor%.*} == 2)) && \
resolution="${resolution// @/@2x @}"
if [[ "$refresh_rate" == "off" ]]; then
resolution="${resolution// @ [0-9][0-9]Hz}"
resolution="${resolution// @ [0-9][0-9][0-9]Hz}"
fi
[[ "$resolution" == *"0Hz"* ]] && \
resolution="${resolution// @ 0Hz}"
;;
"Windows")
width="$(wmic path Win32_VideoController get CurrentHorizontalResolution /value)"
width="${width//CurrentHorizontalResolution'='/}"
height="$(wmic path Win32_VideoController get CurrentVerticalResolution /value)"
height="${height//CurrentVerticalResolution'='/}"
[[ "$(trim "$width")" ]] && resolution="${width}x${height}"
;;
"Haiku")
resolution="$(screenmode | awk -F ' |, ' '{printf $2 "x" $3 " @ " $6 $7}')"
[[ "$refresh_rate" == "off" ]] && resolution="${resolution/ @*}"
;;
esac
resolution="${resolution%,*}"
}
get_style() {
# Fix weird output when the function is run multiple times.
unset gtk2_theme gtk3_theme theme path
if [[ -n "$DISPLAY" && "$os" != "Mac OS X" ]]; then
# Get DE if user has disabled the function.
((de_run != 1)) && get_de
# Check for DE Theme.
case "$de" in
"KDE"*)
kde_config_dir
if [[ -f "${kde_config_dir}/kdeglobals" ]]; then
kde_config_file="${kde_config_dir}/kdeglobals"
theme="$(grep "^[^#]*${kde}" "$kde_config_file")"
theme="${theme/${kde}*=}"
theme="$(uppercase "$theme")"
gtk_shorthand="on"
else
err "Theme: KDE config files not found, skipping."
fi
return
;;
*"Cinnamon"*)
if type -p gsettings >/dev/null; then
gtk3_theme="$(gsettings get org.cinnamon.desktop.interface "$gsettings")"
gtk2_theme="$gtk3_theme"
fi
;;
"Gnome"* | "Unity"* | "Budgie"*)
if type -p gsettings >/dev/null; then
gtk3_theme="$(gsettings get org.gnome.desktop.interface "$gsettings")"
gtk2_theme="$gtk3_theme"
elif type -p gconftool-2 >/dev/null; then
gtk2_theme="$(gconftool-2 -g /desktop/gnome/interface/"$gconf")"
fi
;;
"Mate"*)
gtk3_theme="$(gsettings get org.mate.interface "$gsettings")"
gtk2_theme="$gtk3_theme"
;;
"Xfce"*)
type -p xfconf-query >/dev/null && \
gtk2_theme="$(xfconf-query -c xsettings -p "$xfconf")"
;;
esac
# Check for general GTK2 Theme.
if [[ -z "$gtk2_theme" ]]; then
if [[ -f "${GTK2_RC_FILES:-${HOME}/.gtkrc-2.0}" ]]; then
gtk2_theme="$(grep "^[^#]*${name}" "${GTK2_RC_FILES:-${HOME}/.gtkrc-2.0}")"
elif [[ -f "/usr/share/gtk-2.0/gtkrc" ]]; then
gtk2_theme="$(grep "^[^#]*${name}" /usr/share/gtk-2.0/gtkrc)"
elif [[ -f "/etc/gtk-2.0/gtkrc" ]]; then
gtk2_theme="$(grep "^[^#]*${name}" /etc/gtk-2.0/gtkrc)"
fi
gtk2_theme="${gtk2_theme/${name}*=}"
fi
# Check for general GTK3 Theme.
if [[ -z "$gtk3_theme" ]]; then
if [[ -f "${XDG_CONFIG_HOME}/gtk-3.0/settings.ini" ]]; then
gtk3_theme="$(grep "^[^#]*$name" "${XDG_CONFIG_HOME}/gtk-3.0/settings.ini")"
elif type -p gsettings >/dev/null; then
gtk3_theme="$(gsettings get org.gnome.desktop.interface "$gsettings")"
elif [[ -f "/usr/share/gtk-3.0/settings.ini" ]]; then
gtk3_theme="$(grep "^[^#]*$name" /usr/share/gtk-3.0/settings.ini)"
elif [[ -f "/etc/gtk-3.0/settings.ini" ]]; then
gtk3_theme="$(grep "^[^#]*$name" /etc/gtk-3.0/settings.ini)"
fi
gtk3_theme="${gtk3_theme/${name}*=}"
fi
# Trim whitespace.
gtk2_theme="$(trim "$gtk2_theme")"
gtk3_theme="$(trim "$gtk3_theme")"
# Remove quotes.
gtk2_theme="$(trim_quotes "$gtk2_theme")"
gtk3_theme="$(trim_quotes "$gtk3_theme")"
# Uppercase the first letter of each GTK theme.
gtk2_theme="$(uppercase "$gtk2_theme")"
gtk3_theme="$(uppercase "$gtk3_theme")"
# Toggle visibility of GTK themes.
[[ "$gtk2" == "off" ]] && unset gtk2_theme
[[ "$gtk3" == "off" ]] && unset gtk3_theme
# Format the string based on which themes exist.
if [[ "$gtk2_theme" && "$gtk2_theme" == "$gtk3_theme" ]]; then
gtk3_theme+=" [GTK2/3]"
unset gtk2_theme
elif [[ "$gtk2_theme" && "$gtk3_theme" ]]; then
gtk2_theme+=" [GTK2], "
gtk3_theme+=" [GTK3] "
else
[[ "$gtk2_theme" ]] && gtk2_theme+=" [GTK2] "
[[ "$gtk3_theme" ]] && gtk3_theme+=" [GTK3] "
fi
# Final string.
theme="${gtk2_theme}${gtk3_theme}"
# Make the output shorter by removing "[GTKX]" from the string.
if [[ "$gtk_shorthand" == "on" ]]; then
theme="${theme// '[GTK'[0-9]']'}"
theme="${theme/ '[GTK2/3]'}"
fi
fi
}
get_theme() {
name="gtk-theme-name"
gsettings="gtk-theme"
gconf="gtk_theme"
xfconf="/Net/ThemeName"
kde="widgetStyle"
get_style
}
get_icons() {
name="gtk-icon-theme-name"
gsettings="icon-theme"
gconf="icon_theme"
xfconf="/Net/IconThemeName"
kde="Theme"
get_style
icons="$theme"
}
get_font() {
name="gtk-font-name"
gsettings="font-name"
gconf="font_theme"
xfconf="/Gtk/FontName"
kde="font"
get_style
font="$theme"
}
get_term() {
# If function was run, stop here.
((term_run == 1)) && return
# Workaround for macOS systems that
# don't support the block below.
case "$TERM_PROGRAM" in
"iTerm.app") term="iTerm2" ;;
"Terminal.app") term="Apple Terminal" ;;
"Hyper") term="HyperTerm" ;;
*) term="${TERM_PROGRAM/\.app}" ;;
esac
# Check $PPID for terminal emulator.
while [[ -z "$term" ]]; do
parent="$(get_ppid "$parent")"
name="$(get_process_name "$parent")"
case "${name// }" in
"${SHELL/*\/}" | *"sh" | "tmux"* | "screen" | "su"*) ;;
"login"* | *"Login"* | "init" | "(init)") term="$(tty)" ;;
"ruby" | "1" | "systemd" | "sshd"* | "python"* | "USER"*"PID"*) break ;;
"gnome-terminal-") term="gnome-terminal" ;;
*) term="${name##*/}" ;;
esac
done
# Log that the function was run.
term_run=1
}
get_term_font() {
((term_run != 1)) && get_term
case "$term" in
"urxvt" | "urxvtd" | "xterm")
term_font="$(grep -i -F "${term/d}*font" < <(xrdb -query))"
term_font="${term_font/*font:}"
term_font="$(trim "$term_font")"
# Xresources has two different font formats, this checks which
# one is in use and formats it accordingly.
case "$term_font" in
*"xft:"*)
term_font="${term_font/xft:}"
term_font="${term_font/:*}"
;;
"-"*) term_font="$(awk -F '\\-' '{printf $3}' <<< "$term_font")" ;;
esac
;;
"xfce4-terminal")
term_font="$(awk -F '=' '/^FontName/ {a=$2} END{print a}' "${XDG_CONFIG_HOME}/xfce4/terminal/terminalrc")"
;;
"termite")
term_font="$(awk -F '= ' '/^font/ {a=$2} END{print a}' "${XDG_CONFIG_HOME}/termite/config")"
;;
"mintty")
term_font="$(awk -F '=' '!/^($|#)/ && /Font/ {printf $2; exit}' "${HOME}/.minttyrc")"
;;
"Apple_Terminal")
term_font="$(osascript -e 'tell application "Terminal" to font name of window frontmost')"
;;
"terminology")
term_font="$(strings "${XDG_CONFIG_HOME}/terminology/config/standard/base.cfg" | awk '/^font\.name$/{print a}{a=$0}')"
term_font="${term_font/.pcf}"
term_font="${term_font/:*}"
;;
"Hyper"*)
term_font="$(awk -F "," '/fontFamily/ {a=$1} END{print a}' "${HOME}/.hyper.js" | awk -F "'" '{a=$2} END{print a}')"
;;
"sakura"*)
term_font="$(awk -F '=' '/^font=/ {a=$2} END{print a}' "${XDG_CONFIG_HOME}/sakura/sakura.conf")"
;;
"konsole"*)
# Get Process ID of current konsole window / tab
child="$(get_ppid "$$")"
konsole_instances=($(qdbus | grep 'org.kde.konsole'))
for i in "${konsole_instances[@]}"; do
konsole_sessions=($(qdbus "${i}" | grep '/Sessions/'))
for session in "${konsole_sessions[@]}"; do
if ((child == "$(qdbus "${i}" "${session}" processId)")); then
profile="$(qdbus "${i}" "${session}" environment | awk -F '=' '/KONSOLE_PROFILE_NAME/ {print $2}')"
break
fi
done
[[ "$profile" ]] && break
done
# We could have two profile files for the same profile name, take first match
profile_filename="$(grep -l "Name=${profile}" "${HOME}"/.local/share/konsole/*.profile)"
profile_filename="${profile_filename/$'\n'*}"
[[ "$profile_filename" ]] && term_font="$(awk -F '=|,' '/Font=/ {print $2 " " $3}' "$profile_filename")"
;;
esac
}
get_disk() {
type -p df >/dev/null 2>&1 || { err "Disk requires 'df' to function. Install 'df' to get disk info."; return; }
# Get "df" flags.
case "$os" in
"Haiku") err "Disk doesn't work on Haiku due to the non-standard 'df'"; return ;;
"Mac OS X") df_flags=(-P -h) ;;
*) df_flags=(-h) ;;
esac
# Create an array called 'disks' where each element is a separate line from
# df's output. We then unset the first element which removes the column titles.
IFS=$'\n'
disks=($(df "${df_flags[@]}" "${disk_show[@]:-/}")) && unset 'disks[0]'
IFS="$old_ifs"
# Stop here if 'df' fails to print disk info.
[[ -z "${disks[@]}" ]] && \
{ err "Disk: df failed to print the disks, make sure the disk_show array is set properly."; return; }
for disk in "${disks[@]}"; do
# Create a second array and make each element split at whitespace this time.
disk_info=($disk)
disk_perc="${disk_info[4]/'%'}"
disk="${disk_info[2]/i} / ${disk_info[1]/i} (${disk_perc}%)"
# Subtitle
case "$disk_subtitle" in
"name") disk_sub="${disk_info[0]}" ;;
*) disk_sub="${disk_info[5]}" ;;
esac
# Bar.
case "$disk_display" in
"bar") disk="$(bar "$disk_perc" "100")" ;;
"infobar") disk+=" $(bar "$disk_perc" "100")" ;;
"barinfo") disk="$(bar "$disk_perc" "100") $disk" ;;
"perc") disk="${disk_perc}% $(bar "$disk_perc" "100")" ;;
esac
# Append '(disk mount point)' to the subtitle.
prin "${subtitle} (${disk_sub})" "$disk"
done
}
get_battery() {
case "$os" in
"Linux")
# We use 'prin' here and exit the function early so that we can
# do multi battery support with a single battery per line.
for bat in "/sys/class/power_supply/BAT"*; do
capacity="$(< "${bat}/capacity")"
status="$(< "${bat}/status")"
# Fix for bash on Windows 10 which includes /proc files
# for battery usage despite there not being a battery
# installed.
[[ -z "$capacity" ]] && return
battery="${capacity}% [${status}]"
case "$battery_display" in
"bar") battery="$(bar "$capacity" 100)" ;;
"infobar") battery+=" $(bar "$capacity" 100)" ;;
"barinfo") battery="$(bar "$capacity" 100) ${battery}" ;;
esac
prin "${subtitle}${bat: -1}" "$battery"
done
return
;;
"BSD")
case "$kernel_name" in
"FreeBSD"* | "DragonFly"*)
battery="$(acpiconf -i 0 | awk -F ':\t' '/Remaining capacity/ {print $2}')"
battery_state="$(acpiconf -i 0 | awk -F ':\t\t\t' '/State/ {print $2}')"
;;
"NetBSD"*)
battery="$(envstat | awk '\\(|\\)' '/charge:/ {print $2}')"
battery="${battery/\.*/%}"
;;
"OpenBSD"* | "Bitrig"*)
battery0full="$(sysctl -n hw.sensors.acpibat0.watthour0)"
battery0full="${battery0full/ Wh*}"
battery0now="$(sysctl -n hw.sensors.acpibat0.watthour3)"
battery0now="${battery0now/ Wh*}"
[[ "$battery0full" ]] && \
battery="$((100 * ${battery0now/\.} / ${battery0full/\.}))%"
;;
esac
;;
"Mac OS X")
battery="$(pmset -g batt | grep -o '[0-9]*%')"
state="$(pmset -g batt | awk '/;/ {print $4}')"
[[ "$state" == "charging;" ]] && battery_state="charging"
;;
"Windows")
battery="$(wmic Path Win32_Battery get EstimatedChargeRemaining /value)"
battery="${battery/EstimatedChargeRemaining'='}"
[[ "$(trim "$battery")" ]] && battery="%"
;;
"Haiku")
battery0full="$(awk -F '[^0-9]*' 'NR==2 {print $4}' /dev/power/acpi_battery/0)"
battery0now="$(awk -F '[^0-9]*' 'NR==5 {print $4}' /dev/power/acpi_battery/0)"
battery="$((battery0full * 100 / battery0now))%"
;;
esac
[[ "$battery_state" ]] && battery+=" Charging"
case "$battery_display" in
"bar") battery="$(bar "${battery/'%'*}" 100)" ;;
"infobar") battery="${battery} $(bar "${battery/'%'*}" 100)" ;;
"barinfo") battery="$(bar "${battery/'%'*}" 100) ${battery}" ;;
esac
}
get_local_ip() {
case "$os" in
"Linux" | "BSD" | "Solaris")
local_ip="$(ip route get 1 | awk '{print $NF;exit}')"
[[ -z "$local_ip" ]] && local_ip="$(ifconfig | awk '/broadcast/ {print $2}')"
;;
"MINIX")
local_ip="$(ifconfig | awk '{printf $3; exit}')"
;;
"Mac OS X" | "iPhone OS")
local_ip="$(ipconfig getifaddr en0)"
[[ -z "$local_ip" ]] && local_ip="$(ipconfig getifaddr en1)"
;;
"Windows")
local_ip="$(ipconfig | awk -F ': ' '/IPv4 Address/ {printf $2 ", "}')"
local_ip="${local_ip%\,*}"
;;
"Haiku")
local_ip="$(ifconfig | awk -F ': ' '/Bcast/ {print $2}')"
local_ip="${local_ip/', Bcast'}"
;;
esac
}
get_public_ip() {
if type -p dig >/dev/null; then
public_ip="$(dig +time=1 +tries=1 +short myip.opendns.com @resolver1.opendns.com)"
[[ "$public_ip" =~ ^\; ]] && unset public_ip
fi
if [[ -z "$public_ip" ]] && type -p curl >/dev/null; then
public_ip="$(curl --max-time 10 -w '\n' "$public_ip_host")"
fi
if [[ -z "$public_ip" ]] && type -p wget >/dev/null; then
public_ip="$(wget -T 10 -qO- "$public_ip_host")"
fi
}
get_users() {
users="$(who | awk '!seen[$1]++ {printf $1 ", "}')"
users="${users%\,*}"
}
get_install_date() {
case "$os" in
"Linux" | "iPhone OS") install_file="/lost+found" ;;
"Mac OS X") install_file="/var/log/install.log" ;;
"Solaris") install_file="/var/sadm/system/logs/install_log" ;;
"Windows") install_file="/cygdrive/c/Windows/explorer.exe" ;;
"Haiku") install_file="/boot" ;;
"BSD" | "MINIX")
case "$kernel_name" in
"FreeBSD") install_file="/etc/hostid" ;;
"NetBSD" | "DragonFly"*) install_file="/etc/defaults/rc.conf" ;;
*) install_file="/" ;;
esac
;;
esac
ls_prog="$(ls --version 2>&1)"
case "$ls_prog" in
*"BusyBox"*) install_date="$(ls -tdce "$install_file" | awk '{printf $10 " " $7 " " $8 " " $9}')" ;;
*"crtime"*) install_date="$(ls -tdcE "$install_file" | awk '{printf $6 " " $7}')" ;; # xpg4 (Solaris)
*"ACFHLRSZ"*) install_date="$(ls -dl "$install_file" | awk '{printf $6 " " $7}')" ;; # Toybox
*"GNU coreutils"*) install_date="$(ls -tcd --full-time "$install_file" | awk '{printf $6 " " $7}')" ;;
*) install_date="$(ls -dlctT "$install_file" | awk '{printf $9 " " $6 " "$7 " " $8}')" ;;
esac
install_date="${install_date//-/ }"
install_date="${install_date%:*}"
install_date=($install_date)
install_date="$(convert_time "${install_date[@]}")"
}
get_cols() {
if [[ "$color_blocks" == "on" ]]; then
# Convert the width to space chars.
printf -v block_width "%${block_width}s"
# Set variables.
start="${block_range[0]}"
end="${block_range[1]}"
# Generate the string.
for ((start; start<=end; start++)); do
case "$start" in
[0-6]) blocks+="${reset}\033[3${start}m\033[4${start}m${block_width}" ;;
7) blocks+="${reset}\033[3${start}m\033[4${start}m${block_width}" ;;
*) blocks2+="\033[38;5;${start}m\033[48;5;${start}m${block_width}" ;;
esac
done
# Convert height into spaces.
printf -v spaces "%${block_height}s"
# Convert the spaces into rows of blocks.
[[ "$blocks" ]] && cols+="${spaces// /${blocks}${reset}nl}"
[[ "$blocks2" ]] && cols+="${spaces// /${blocks2}${reset}nl}"
# Add newlines to the string.
cols="${cols%%'nl'}"
cols="${cols//nl/\\n\\033[${text_padding}C${zws}}"
printf "%b\n" "\033[${text_padding}C${zws}${cols}"
info_height="$((info_height+=block_height+2))"
fi
unset -v blocks blocks2 cols
# Tell info() that we printed manually.
prin=1
}
# IMAGES
get_image_backend() {
# This function determines which image backend to use
# by checking for programs and etc.
# If the image source isn't "ascii" or "off".
if [[ ! "${image_source}" =~ ^(off|ascii)$ ]]; then
# If X isn't running force ascii mode here.
[[ -z "$DISPLAY" ]] && image_source="ascii"
# Fallback to ascii mode if imagemagick isn't installed.
type -p convert >/dev/null 2>&1 || image_source="ascii"
fi
# Get the image program.
get_image_program
# If image source is ascii fallback to ascii.
if [[ "$image_source" == "ascii" ]]; then
to_ascii "Image: \$image_source set to 'ascii', falling back to ascii mode."
err "Image: Change \$image_source to another value to use image mode."
return
fi
case "${image_backend:=image}" in
"image")
case "$image_source" in
"wall"*) get_wallpaper 2>/dev/null ;;
"off") image_backend="off"; return ;;
*)
if [[ -d "$image_source" ]]; then
files=("${image_source%/}"/*.{png,jpg,jpeg})
printf -v image "%s" "${files[RANDOM % (${#files[@]} - 1)]}"
else
image="$image_source"
fi
;;
esac
# Fallback to ascii mode if image isn't a file.
if [[ ! -f "$image" ]]; then
to_ascii "Image: '$image' doesn't exist, falling back to ascii mode."
return
fi
get_term_size
# Fallback to ascii mode if terminal size wasn't found.
if [[ -z "$term_width" ]] || ((term_width == 0)); then
to_ascii "Image: Failed to find terminal window size"
err "Image: Check the 'Images in the terminal' wiki page for more info"
return
fi
get_image_size
make_thumbnail
# If the backend is still set to "image" after
# make_thumbnail(), then display the image.
[[ "$image_backend" == "image" ]] && display_image
;;
"ascii") get_ascii 2>/dev/null ;;
esac
# Set cursor position next to ascii art.
[[ "$image_backend" != "off" ]] && printf "%b" "\033[${lines:-0}A\033[9999999D"
}
get_ascii() {
if [[ ! -f "$ascii" || "$ascii" == "distro" ]]; then
# Fallback to distro ascii mode if custom ascii isn't found.
[[ "$ascii" != "distro" && ! -f "$ascii" ]] && \
err "Ascii: Ascii file not found, using distro ascii."
if [[ -d "/usr/share/neofetch/ascii/distro" ]]; then
ascii_dir="/usr/share/neofetch/ascii/distro"
elif [[ -d "/usr/local/share/neofetch/ascii/distro" ]]; then
ascii_dir="/usr/local/share/neofetch/ascii/distro"
elif [[ -d "/data/data/com.termux/files/usr/share/neofetch/ascii/distro" ]]; then
ascii_dir="/data/data/com.termux/files/usr/share/neofetch/ascii/distro"
else
get_script_dir 2>/dev/null
ascii_dir="${script_dir}/ascii/distro"
fi
ascii="${ascii_dir}/${ascii_file}"
# Fallback to no ascii mode if distro ascii isn't found.
[[ ! -f "$ascii" ]] && \
{ to_off "Ascii: Failed to find distro ascii, falling back to no ascii mode."; return; }
fi
# Set locale to get correct padding.
export LC_ALL="$sys_locale"
# Turn file into variable.
while IFS=$'\n' read -r line 2>/dev/null; do
print+="$line \n"
# Calculate size of ascii file in line length / line count.
line="${line//\$\{??\}}"
line="${line//\\\\/\\}"
((${#line} > ascii_length)) && ascii_length="${#line}"
lines="$((lines+=1))"
done < "$ascii"
# Colors.
print="${print//'${c1}'/$c1}"
print="${print//'${c2}'/$c2}"
print="${print//'${c3}'/$c3}"
print="${print//'${c4}'/$c4}"
print="${print//'${c5}'/$c5}"
print="${print//'${c6}'/$c6}"
# Overwrite padding if ascii_length_force is set.
[[ "$ascii_length_force" ]] && ascii_length="$ascii_length_force"
text_padding="$((ascii_length + gap))"
printf "%b" "$print"
export LC_ALL=C
}
get_image_program() {
if [[ -n "$ITERM_PROFILE" ]]; then
image_program="iterm2"
elif [[ "$(tycat 2>/dev/null)" ]]; then
image_program="tycat"
else
image_program="w3m"
get_w3m_img_path
fi
}
get_w3m_img_path() {
if [[ -x "$w3m_img_path" ]]; then
return
elif [[ -x "/usr/lib/w3m/w3mimgdisplay" ]]; then
w3m_img_path="/usr/lib/w3m/w3mimgdisplay"
elif [[ -x "/usr/libexec/w3m/w3mimgdisplay" ]]; then
w3m_img_path="/usr/libexec/w3m/w3mimgdisplay"
elif [[ -x "/usr/lib64/w3m/w3mimgdisplay" ]]; then
w3m_img_path="/usr/lib64/w3m/w3mimgdisplay"
elif [[ -x "/usr/libexec64/w3m/w3mimgdisplay" ]]; then
w3m_img_path="/usr/libexec64/w3m/w3mimgdisplay"
else
image_backend="ascii"
err "Image: w3m-img wasn't found on your system, falling back to ascii mode."
fi
}
get_wallpaper() {
case "$os" in
"Linux" | "BSD" | "Solaris" | "MINIX")
# Get DE if user has disabled the function.
((de_run != 1)) && get_de
case "$de" in
"MATE"*) image="$(gsettings get org.mate.background picture-filename)" ;;
"XFCE"*) image="$(xfconf-query -c xfce4-desktop -p /backdrop/screen0/monitor0/workspace0/last-image)" ;;
"Cinnamon"*)
image="$(gsettings get org.cinnamon.desktop.background picture-uri)"
image="$(decode_url "$image")"
;;
*)
if type -p feh >/dev/null && [[ -f "${HOME}/.fehbg" ]]; then
image="$(awk -F\' '/feh/ {printf $2}' "${HOME}/.fehbg")"
elif type -p nitrogen >/dev/null; then
image="$(awk -F'=' '/file/ {printf $2;exit;}' "${XDG_CONFIG_HOME}/nitrogen/bg-saved.cfg")"
else
image="$(gsettings get org.gnome.desktop.background picture-uri)"
image="$(decode_url "$image")"
fi
;;
esac
# Strip un-needed info from the path.
image="${image/'file://'}"
image="$(trim_quotes "$image")"
;;
"Mac OS X")
image="$(osascript -e 'tell application "System Events" to picture of current desktop')"
;;
"Windows")
case "$distro" in
"Windows XP")
image="/cygdrive/c/Documents and Settings/${USER}"
image+="/Local Settings/Application Data/Microsoft"
image+="/Wallpaper1.bmp"
;;
"Windows"*)
image="$APPDATA/Microsoft/Windows/Themes"
image+="/TranscodedWallpaper.jpg"
;;
esac
;;
esac
# If image is an xml file, don't use it.
[[ "${image/*\./}" == "xml" ]] && image=""
}
get_term_size() {
# This functions gets the current window size in
# pixels.
#
# We first try to use the escape sequence "\044[14t"
# to get the terminal window size in pixels. If this
# fails we then fallback to using "xdotool" or other
# programs.
# Tmux has a special way of reading escape sequences
# so we have to use a slightly different sequence to
# get the terminal size.
if [[ -n "$TMUX" ]]; then
printf "%b" "\033Ptmux;\033\033[14t\033\033[c\033\\"
read_flags=(-d c)
elif [[ "$image_program" == "tycat" ]]; then
printf "%b" "\033}qs\000"
else
printf "%b" "\033[14t\033[c"
read_flags=(-d c)
fi
# The escape codes above print the desired output as
# user input so we have to use read to store the out
# -put as a variable.
IFS=";" read -s -t 1 "${read_flags[@]}" -r -a term_size
# Split the string into height/width.
if [[ "$image_program" == "tycat" ]]; then
term_width="$((term_size[2] * term_size[0]))"
term_height="$((term_size[3] * term_size[1]))"
else
term_height="${term_size[1]}"
term_width="${term_size[2]/t*}"
fi
# Get terminal width/height if \033[14t is unsupported.
if [[ -z "$term_width" && "$image_program" == "w3m" ]]; then
if type -p xdotool >/dev/null 2>&1; then
current_window="$(xdotool getactivewindow)"
source <(xdotool getwindowgeometry --shell "$current_window")
term_height="$HEIGHT"
term_width="$WIDTH"
elif type -p xwininfo >/dev/null 2>&1; then
# Get the focused window's ID.
if type -p xdpyinfo >/dev/null 2>&1; then
current_window="$(xdpyinfo | grep -E -o "focus:.*0x[0-9a-f]+")"
current_window="${current_window/*window }"
elif type -p xprop >/dev/null 2>&1; then
current_window="$(xprop -root | awk '/_NET_ACTIVE_WINDOW\(WINDOW\)/{print $NF}')"
fi
# If the ID was found get the window size.
if [[ "$current_window" ]]; then
term_size="$(xwininfo -id "$current_window" | awk -F ': ' '/Width|Height/ {printf $2 " "}')"
term_width="${term_size/ *}"
term_height="${term_size/${term_width}}"
else
term_width=0
fi
else
term_width=0
fi
fi
# If the terminal size was found correctly.
if [[ "$term_width" ]] && ((term_width >= 1)); then
clear
zws=" "
fi
}
get_image_size() {
# This functions determines the size to make
# the thumbnail image.
# Get terminal lines and columns.
term_blocks="$(stty size)"
columns="${term_blocks/* }"
lines="${term_blocks/ *}"
# Calculate font size.
font_width="$((term_width / columns))"
font_height="$((term_height / lines))"
case "$image_size" in
"auto")
image_size="$((columns * font_width / 2))"
term_height="$((term_height - term_height / 4))"
((term_height < image_size)) && \
image_size="$term_height"
;;
*"%")
percent="${image_size/\%}"
image_size="$((percent * term_width / 100))"
(((percent * term_height / 50) < image_size)) && \
image_size="$((percent * term_height / 100))"
;;
"none")
# Get image size so that we can do a better crop.
size="$(identify -format "%w %h" "$image")"
width="${size%% *}"
height="${size##* }"
crop_mode="none"
;;
*) image_size="${image_size/px}" ;;
esac
width="${width:-$image_size}"
height="${height:-$image_size}"
text_padding="$((width / font_width + gap + xoffset/font_width))"
}
make_thumbnail() {
# Name the thumbnail using variables so we can
# use it later.
image_name="$crop_mode-$crop_offset-$width-$height"
# Check to see if the image has a file extension,
# if it doesn't then add one.
case "${image##*/}" in
*"."*) image_name="${image_name}-${image##*/}" ;;
*) image_name="${image_name}-${image##*/}.jpg" ;;
esac
# Create the thumbnail dir if it doesn't exist.
mkdir -p "$thumbnail_dir"
# Check to see if the thumbnail exists before we do any cropping.
if [[ ! -f "$thumbnail_dir/$image_name" ]]; then
# Get image size so that we can do a better crop.
if [[ -z "$size" ]]; then
size="$(identify -format "%w %h" "$image")"
og_width="${size%% *}"
og_height="${size##* }"
# This checks to see if height is greater than width
# so we can do a better crop of portrait images.
size="$og_height"
((og_height > og_width)) && size="$og_width"
fi
case "$crop_mode" in
"fit")
c="$(convert "$image" \
-colorspace srgb \
-format "%[pixel:p{0,0}]" info:)"
convert \
"$image" \
-trim +repage \
-gravity south \
-background "$c" \
-extent "$size"x"$size" \
-scale "$width"x"$height" \
"$thumbnail_dir/$image_name"
;;
"fill")
convert \
"$image" \
-trim +repage \
-scale "$width"x"$height"^ \
-extent "$width"x"$height" \
"$thumbnail_dir/$image_name"
;;
"none") cp "$image" "$thumbnail_dir/$image_name" ;;
*)
convert \
"$image" \
-gravity "$crop_offset" \
-crop "$size"x"$size"+0+0 \
-quality 95 \
-scale "$width"x"$height" \
"$thumbnail_dir/$image_name"
;;
esac
fi
# The final image.
image="$thumbnail_dir/$image_name"
}
display_image() {
case "$image_program" in
"w3m")
# Add a tiny delay to fix issues with images not
# appearing in specific terminal emulators.
sleep 0.05
printf "%b\n" "0;1;$xoffset;$yoffset;$width;$height;;;;;$image\n4;\n3;" |\
"$w3m_img_path" -bg "$background_color" >/dev/null & 2>&1 || to_off "Images: w3m-img failed to display the image."
;;
"iterm2")
printf "%b\a\n" "\033]1337;File=width=${width}px;height=${height}px;inline=1:$(base64 < "$image")"
;;
"tycat")
tycat "$image" || to_off "Images: tycat failed to display the image."
;;
esac
}
to_ascii() {
# This function makes neofetch fallback to ascii mode.
image_backend="ascii"
# Print the ascii art.
get_ascii 2>/dev/null
# Move cursor next to ascii art.
printf "%b" "\033[${lines:-0}A\033[9999999D"
# Log the error.
err "$1"
}
to_off() {
# This function makes neofetch fallback to off mode.
image_backend="off"
text_padding=
zws=
err "$1"
}
# SCREENSHOT
take_scrot() {
if [[ -d "$scrot_dir" ]]; then
scrot_program "${scrot_dir}${scrot_name}" 2>/dev/null
else
printf "%s\n" "Screenshot: $scrot_dir doesn't exist. Edit the config file or create the directory to take screenshots."
fi
[[ "$scrot_upload" == "on" ]] && scrot_upload
}
scrot_upload() {
if ! type -p curl >/dev/null 2>&1; then
printf "%s\n" "[!] Install curl to upload images"
return
fi
image_file="${scrot_dir}${scrot_name}"
printf "%s\n" "Uploading image..."
case "$image_host" in
"teknik")
image_url="$(curl -sf -F file="@${image_file};type=image/png" "https://api.teknik.io/v1/Upload")"
image_url="$(awk -F 'url:|,' '{printf $2}' <<< "${image_url//\"}")"
;;
"imgur")
image_url="$(curl -sH "Authorization: Client-ID 0e8b44d15e9fc95" -F image="@${image_file}" "https://api.imgur.com/3/upload")"
image_url="$(awk -F 'id:|,' '{printf $2}' <<< "${image_url//\"}")"
[[ "$image_url" ]] && image_url="https://i.imgur.com/${image_url}.png"
;;
esac
printf "%s\n" "${image_url:-'[!] Image failed to upload'}"
}
scrot_args() {
scrot="on"
case "$2" in
"-"* | "") ;;
*)
scrot_name="${2##*/}"
scrot_dir="${2/$scrot_name}"
;;
esac
}
scrot_program() {
# Detect screenshot program.
#
# We first check to see if an X server is running before
# falling back to OS specific screenshot tools.
if [[ -n "$DISPLAY" ]]; then
if [[ "$scrot_cmd" != "auto" ]] && type -p "$scrot_cmd" >/dev/null; then
scrot_program=("$scrot_cmd")
elif type -p scrot >/dev/null; then
scrot_program=(scrot)
elif type -p maim >/dev/null; then
scrot_program=(maim)
elif type -p import >/dev/null; then
scrot_program=(import -window root)
elif type -p imlib2_grab >/dev/null; then
scrot_program=(imlib2_grab)
elif type -p gnome-screenshot >/dev/null; then
scrot_program=(gnome-screenshot -f)
else
err "Scrot: No screen capture tool found."
return
fi
else
case "$os" in
"Mac OS X") scrot_program=(screencapture -S) ;;
"Haiku") scrot_program=(screenshot -s) ;;
esac
fi
# Take the scrot.
"${scrot_program[@]}" "$1"
err "Scrot: Screen captured using ${scrot_program[0]}"
}
# TEXT FORMATTING
info() {
# Save subtitle value.
subtitle="$1"
# Make sure that $prin is unset.
unset -v prin
# Call the function.
"get_${2:-$1}" 2>/dev/null
# If the get_func function called 'prin' directly, stop here.
[[ "$prin" ]] && return
# Update the variable.
output="$(trim "${!2:-${!1}}")"
if [[ "$2" && "${output// }" ]]; then
length="$((${#1} + ${#output} + 2))"
prin "$1" "$output"
elif [[ "${output// }" ]]; then
[[ -z "$length" ]] && length="${#output}"
prin "$output"
else
err "Info: Couldn't detect ${1}."
fi
}
prin() {
# If $2 doesn't exist we format $1 as info.
[[ -z "$2" ]] && local subtitle_color="$info_color"
# Format the output.
string="${1//$'\033[0m'}${2:+: $2}"
string="$(trim "$string")"
string="${string/:/${reset}${colon_color}:${info_color}}"
string="${subtitle_color}${bold}${string}"
# Print the info.
printf "%b\n" "${text_padding:+\033[${text_padding}C}${zws}${string}${reset} "
# Calculate info height.
info_height="$((info_height+=1))"
# Log that prin was used.
prin=1
}
get_underline() {
if [[ "$underline_enabled" == "on" ]]; then
printf -v underline "%${length}s"
underline="${underline_color}${underline// /$underline_char}"
unset -v length
fi
}
get_line_break() {
# Print it directly.
printf "%s\n" "${zws} "
# Calculate info height.
info_height="$((info_height+=1))"
# Tell info() that we printed manually.
prin=1
}
get_bold() {
case "$ascii_bold" in
"on") ascii_bold="\033[1m" ;;
"off") ascii_bold="" ;;
esac
case "$bold" in
"on") bold="\033[1m" ;;
"off") bold="" ;;
esac
}
trim() {
# When a string is passed to "echo" all trailing and leading
# whitespace is removed and inside the string multiple spaces are
# condensed into single spaces.
#
# The "set -f/+f" is here so that "echo" doesn't cause any expansion
# of special characters.
#
# The whitespace trim doesn't work with multiline strings so we use
# "${1//[[:space:]]/ }" to remove newlines before we trim the whitespace.
set -f
# shellcheck disable=2086
builtin echo -E ${1//[[:space:]]/ }
set +f
}
trim_quotes() {
trim_output="${1//\'}"
trim_output="${trim_output//\"}"
printf "%s" "$trim_output"
}
uppercase() {
((bash_version >= 4)) && printf "%s" "${1^}"
}
# COLORS
get_distro_colors() {
# This function sets the text colors according
# to your OS/Distro's logo colors.
#
# $ascii_distro is the same as $distro.
case "$ascii_distro" in
"Alpine"*)
set_colors 4 5 7 6
ascii_file="alpine"
;;
"Android"*)
set_colors 2 7
ascii_file="android"
ascii_length_force=19
;;
"Antergos"*)
set_colors 4 6
ascii_file="antergos"
;;
"antiX"*)
set_colors 1 7 3
ascii_file="antix"
;;
"AOSC"*)
set_colors 4 7 1
ascii_file="aosc"
;;
"Apricity"*)
set_colors 4 7 1
ascii_file="apricity"
;;
"arch_small")
set_colors 4 7 1
ascii_file="arch_small"
;;
"arch_old")
set_colors 4 7 1
ascii_file="arch_old"
;;
"Arch"*)
set_colors 4 7 1
ascii_file="arch"
;;
"Bitrig"*)
set_colors 2 7
ascii_file="bitrig"
;;
"BLAG"*)
set_colors 5 7
ascii_file="blag"
;;
"BlankOn"*)
set_colors 1 7 3
ascii_file="blankon"
;;
"BSD")
set_colors 1 7 4 3 6
ascii_file="bsd"
;;
"BunsenLabs"*)
set_colors fg 7
ascii_file="bunsenlabs"
;;
"CentOS"*)
set_colors 3 2 4 5 7
ascii_file="centos"
;;
"Chakra"*)
set_colors 4 5 7 6
ascii_file="chakra"
;;
"ChaletOS"*)
set_colors 4 7 1
ascii_file="chaletos"
;;
"Chapeau"*)
set_colors 2 7
ascii_file="chapeau"
;;
"Chrom"*)
set_colors 2 1 3 4 7
ascii_file="chrome"
;;
"crux_small")
set_colors 4 5 7 6
ascii_file="crux_small"
;;
"CRUX"*)
set_colors 4 5 7 6
ascii_file="crux"
;;
"Debian"*)
set_colors 1 7 3
ascii_file="debian"
;;
"Deepin"*)
set_colors 2 7
ascii_file="deepin"
;;
"Devuan"*)
set_colors 5 7
ascii_file="devuan"
;;
"DracOS"*)
set_colors 1 7 3
ascii_file="dracos"
;;
"DragonFly"*)
set_colors 1 7 3
ascii_file="dragonflybsd"
;;
"Elementary"*)
set_colors 4 7 1
ascii_file="elementary"
;;
"Exherbo"*)
set_colors 4 7 1
ascii_file="exherbo"
;;
"Fedora"* | "RFRemix"*)
set_colors 4 7 1
ascii_file="fedora"
;;
"FreeBSD"*)
set_colors 1 7 3
ascii_file="freebsd"
;;
"Frugalware"*)
set_colors 4 7 1
ascii_file="frugalware"
;;
"Funtoo"*)
set_colors 5 7
ascii_file="funtoo"
;;
"GalliumOS"*)
set_colors 4 7 1
ascii_file="galliumos"
;;
"gentoo_small")
set_colors 5 7
ascii_file="gentoo_small"
;;
"Gentoo"*)
set_colors 5 7
ascii_file="gentoo"
;;
"gNewSense"*)
set_colors 4 5 7 6
ascii_file="gnewsense"
;;
"GNU")
set_colors fg 7
ascii_file="gnu"
;;
"GoboLinux"*)
set_colors 5 4 6 2
ascii_file="gobolinux"
;;
"Grombyang"*)
set_colors 4 2 1
ascii_file="grombyang"
;;
"GuixSD"*)
set_colors 3 7 6 1 8
ascii_file="guixsd"
;;
"Haiku"*)
set_colors 2 8
ascii_file="haiku"
;;
"Kali"*)
set_colors 4 8
ascii_file="kali"
;;
"KaOS"*)
set_colors 4 7 1
ascii_file="kaos"
;;
"KDE"*)
set_colors 2 7
ascii_file="kde"
;;
"Kogaion"*)
set_colors 4 7 1
ascii_file="kogaion"
;;
"Korora"*)
set_colors 4 7 1
ascii_file="korora"
;;
"Kubuntu"*)
set_colors 4 7 1
ascii_file="kubuntu"
;;
"Linux")
set_colors fg 8 3
ascii_file="linux"
;;
"LMDE"*)
set_colors 2 7
ascii_file="lmde"
;;
"Lubuntu"*)
set_colors 4 7 1
ascii_file="lubuntu"
;;
"mac" | "Darwin")
set_colors 2 3 1 1 5 4
ascii_file="mac"
;;
"Mageia"*)
set_colors 6 7
ascii_file="mageia"
;;
"Manjaro"*)
set_colors 2 7
ascii_file="manjaro"
;;
"Minix"*)
set_colors 1 7 3
ascii_file="minix"
;;
"Linux Mint"* | "LinuxMint"*)
set_colors 2 7
ascii_file="mint"
;;
"MX"*)
set_colors 4 6 7
ascii_file="mx"
;;
"NetBSD"*)
set_colors 5 7
ascii_file="netbsd"
;;
"Netrunner"*)
set_colors 4 7 1
ascii_file="netrunner"
;;
"NixOS"*)
set_colors 4 6
ascii_file="nixos"
;;
"openbsd_small")
set_colors 3 7 6 1 8
ascii_file="openbsd_small"
;;
"OpenBSD"*)
set_colors 3 7 6 1 8
ascii_file="openbsd"
;;
"OpenIndiana"*)
set_colors 4 7 1
ascii_file="openindiana"
;;
"OpenMandriva"*)
set_colors 4 3
ascii_file="openmandriva"
;;
"OpenWrt"*)
set_colors 4 7 1
ascii_file="openwrt"
;;
"Oracle"*)
set_colors 1 7 3
ascii_file="oracle"
;;
"PacBSD"*)
set_colors 1 7 3
ascii_file="pacbsd"
;;
"Parabola"*)
set_colors 5 7
ascii_file="parabola"
;;
"Pardus"*)
set_colors 3 7 6 1 8
ascii_file="pardus"
;;
"Parrot"*)
set_colors 6 7
ascii_file="parrot"
;;
"PCBSD"* | "TrueOS"*)
set_colors 1 7 3
ascii_file="trueos"
;;
"PCLinuxOS"*)
set_colors 4 7 1
ascii_file="pclinuxos"
;;
"Peppermint"*)
set_colors 1 7 3
ascii_file="peppermint"
;;
"Porteus"*)
set_colors 6 7
ascii_file="porteus"
;;
"Puppy"* | "Quirky Werewolf"* | "Precise Puppy"*)
set_colors 4 7
ascii_file="puppy"
;;
"Qubes"*)
set_colors 4 5 7 6
ascii_file="qubes"
;;
"Raspbian"*)
set_colors 2 1
ascii_file="raspbian"
;;
"Red Star"* | "Redstar"*)
set_colors 1 7 3
ascii_file="redstar"
;;
"Redhat"* | "Red Hat"* | "rhel"*)
set_colors 1 7 3
ascii_file="redhat"
;;
"Rosa"*)
set_colors 4 7 1
ascii_file="rosa"
;;
"Sabayon"*)
set_colors 4 7 1
ascii_file="sabayon"
;;
"SailfishOS"*)
set_colors 4 5 7 6
ascii_file="sailfishos"
;;
"SalentOS"*)
set_colors 2 1 3 7
ascii_file="salentos"
;;
"Scientific"*)
set_colors 4 7 1
ascii_file="scientific"
;;
"Slackware"*)
set_colors 4 7 1
ascii_file="slackware"
;;
"SmartOS"*)
set_colors 6 7
ascii_file="smartos"
;;
"Solus"*)
set_colors 4 7 1
ascii_file="solus"
;;
"Sparky"*)
set_colors 1 7
ascii_file="sparky"
;;
"SteamOS"*)
set_colors 5 7
ascii_file="steamos"
;;
"SunOS" | "Solaris")
set_colors 3 7
ascii_file="solaris"
;;
"openSUSE"* | "open SUSE"* | "SUSE"*)
set_colors 2 7
ascii_file="suse"
;;
"SwagArch"*)
set_colors 4 7 1
ascii_file="swagarch"
;;
"Tails"*)
set_colors 5 7
ascii_file="tails"
;;
"Trisquel"*)
set_colors 4 6
ascii_file="trisquel"
;;
"Ubuntu-Budgie"*)
set_colors 4 7 1
ascii_file="ubuntu-budgie"
;;
"Ubuntu-GNOME"*)
set_colors 4 5 7 6
ascii_file="ubuntu-gnome"
;;
"ubuntu_old")
set_colors 1 7 3
ascii_file="ubuntu_old"
;;
"Ubuntu"*)
set_colors 1 7 3
ascii_file="ubuntu"
;;
"Void"*)
set_colors 2 8
ascii_file="void"
;;
"Windows 8"* | "Windows 10"*)
set_colors 6 7
ascii_file="windows10"
;;
"Windows"*)
set_colors 1 2 4 3
ascii_file="windows"
;;
"Xubuntu"*)
set_colors 4 7 1
ascii_file="xubuntu"
;;
"Zorin"*)
set_colors 4 6
ascii_file="zorin"
;;
*)
case "$kernel_name" in
*"BSD")
set_colors 1 7 4 3 6
ascii_file="bsd"
;;
"Darwin")
set_colors 2 3 1 1 5 4
ascii_file="mac"
;;
"GNU"*)
set_colors fg 7
ascii_file="gnu"
;;
"Linux")
set_colors fg 8 3
ascii_file="linux"
;;
"SunOS")
set_colors 3 7
ascii_file="solaris"
;;
esac
;;
esac
# Overwrite distro colors if '$ascii_colors' doesn't
# equal 'distro'.
if [[ "${ascii_colors[0]}" != "distro" ]]; then
color_text="off"
set_colors "${ascii_colors[@]}"
fi
}
set_colors() {
c1="$(color "$1")${ascii_bold}"
c2="$(color "$2")${ascii_bold}"
c3="$(color "$3")${ascii_bold}"
c4="$(color "$4")${ascii_bold}"
c5="$(color "$5")${ascii_bold}"
c6="$(color "$6")${ascii_bold}"
[[ "$color_text" != "off" ]] && set_text_colors "$@"
}
set_text_colors() {
if [[ "${colors[0]}" == "distro" ]]; then
title_color="$(color "$1")"
at_color="$reset"
underline_color="$reset"
subtitle_color="$(color "$2")"
colon_color="$reset"
info_color="$reset"
# If the ascii art uses 8 as a color, make the text the fg.
((${1:-1} == 8)) && title_color="$reset"
((${2:-7} == 8)) && subtitle_color="$reset"
# If the second color is white use the first for the subtitle.
((${2:-7} == 7)) && subtitle_color="$(color "$1")"
((${1:-1} == 7)) && title_color="$reset"
else
title_color="$(color "${colors[0]}")"
at_color="$(color "${colors[1]}")"
underline_color="$(color "${colors[2]}")"
subtitle_color="$(color "${colors[3]}")"
colon_color="$(color "${colors[4]}")"
info_color="$(color "${colors[5]}")"
fi
# Bar colors.
if [[ "$bar_color_elapsed" == "distro" ]]; then
bar_color_elapsed="$(color fg)"
else
bar_color_elapsed="$(color "$bar_color_elapsed")"
fi
case "$bar_color_total $1" in
"distro "[736]) bar_color_total="$c2" ;;
"distro "[0-9]) bar_color_total="$c1" ;;
*) bar_color_total="$(color "$bar_color_total")" ;;
esac
}
color() {
case "$1" in
[0-6]) printf "%b" "${reset}\033[3${1}m" ;;
7 | "fg") printf "%b" "$reset" ;;
*) printf "%b" "\033[38;5;${1}m" ;;
esac
}
# OTHER
err() {
err+="$(color 1)[!]\033[0m $1\n"
}
get_script_dir() {
[[ "$script_dir" ]] && return
# Use $0 to get the script's physical path.
cd "${0%/*}" || exit
script_dir="${0##*/}"
# Iterate down a (possible) chain of symlinks.
while [[ -L "$script_dir" ]]; do
script_dir="$(readlink "$script_dir")"
cd "${script_dir%/*}" || exit
script_dir="${script_dir##*/}"
done
# Final directory.
script_dir="$(pwd -P)"
}
get_default_config() {
if [[ -f "/usr/share/neofetch/config" ]]; then
default_config="/usr/share/neofetch/config"
elif [[ -f "/usr/local/share/neofetch/config" ]]; then
default_config="/usr/local/share/neofetch/config"
elif [[ -f "/data/data/com.termux/files/usr/share/neofetch/config" ]]; then
default_config="/data/data/com.termux/files/usr/share/neofetch/config"
else
get_script_dir
default_config="${script_dir}/config/config"
travis_config="${script_dir}/config/travis"
fi
if source "$default_config"; then
err "Config: Sourced default config. (${default_config})"
else
err "Config: Default config not found, continuing..."
fi
}
get_user_config() {
# Check $config_file.
if [[ -f "$config_file" ]]; then
source "$config_file"
err "Config: Sourced user config. (${config_file})"
old_options
return
elif [[ "$config_file" == "travis" ]]; then
source "$travis_config"
err "Config: Sourced user config. (${travis_config})"
old_options
return
fi
mkdir -p "${XDG_CONFIG_HOME}/neofetch/"
# Check ${XDG_CONFIG_HOME}/neofetch and create the
# dir/files if they don't exist.
if [[ -f "${XDG_CONFIG_HOME}/neofetch/config" ]]; then
config_file="${XDG_CONFIG_HOME}/neofetch/config"
elif [[ -f "/usr/share/neofetch/config" ]]; then
cp "/usr/share/neofetch/config" "${XDG_CONFIG_HOME}/neofetch"
config_file="${XDG_CONFIG_HOME}/neofetch/config"
elif [[ -f "/usr/local/share/neofetch/config" ]]; then
cp "/usr/local/share/neofetch/config" "${XDG_CONFIG_HOME}/neofetch"
config_file="${XDG_CONFIG_HOME}/neofetch/config"
else
get_script_dir
cp "${script_dir}/config/config" "${XDG_CONFIG_HOME}/neofetch"
config_file="${XDG_CONFIG_HOME}/neofetch/config"
fi
source "$config_file"
err "Config: Sourced user config. (${config_file})"
old_options
}
bar() {
# Get the values.
elapsed="$(($1 * bar_length / $2))"
# Create the bar with spaces.
printf -v prog "%${elapsed}s"
printf -v total "%$((bar_length - elapsed))s"
# Set the colors and swap the spaces for $bar_char_.
bar+="${bar_color_elapsed}${prog// /$bar_char_elapsed}"
bar+="${bar_color_total}${total// /$bar_char_total}"
# Borders.
[[ "$bar_border" == "on" ]] && \
bar="$(color fg)[${bar}$(color fg)]"
printf "%b\n" "${bar}${info_color}"
}
cache() {
if [[ "$2" ]]; then
mkdir -p "${cache_dir}/neofetch"
printf "%s" "${1/*-}=\"$2\"" > "${cache_dir}/neofetch/${1/*-}"
fi
}
get_cache_dir() {
case "$os" in
"Mac OS X") cache_dir="/Library/Caches" ;;
*) cache_dir="/tmp" ;;
esac
}
kde_config_dir() {
# If the user is using KDE get the KDE
# configuration directory.
if [[ "$kde_config_dir" ]]; then
return
elif type -p kf5-config >/dev/null 2>&1; then
kde_config_dir="$(kf5-config --path config)"
elif type -p kde4-config >/dev/null 2>&1; then
kde_config_dir="$(kde4-config --path config)"
elif type -p kde-config >/dev/null 2>&1; then
kde_config_dir="$(kde-config --path config)"
elif [[ -d "${HOME}/.kde4" ]]; then
kde_config_dir="${HOME}/.kde4/share/config"
elif [[ -d "${HOME}/.kde3" ]]; then
kde_config_dir="${HOME}/.kde3/share/config"
fi
kde_config_dir="${kde_config_dir/$'/:'*}"
}
get_term_padding() {
# Terminal info.
#
# Parse terminal config files to get
# info about padding. Due to how w3m-img
# works padding around the terminal throws
# off the cursor placement calculation in
# specific terminals.
#
# Note: This issue only seems to affect
# URxvt.
((term_run != 1)) && get_term
case "$term" in
"URxvt"*)
border="$(xrdb -query | awk -F ':' '/^(URxvt|\*).internalBorder/ {printf $2; exit}')"
;;
esac
}
dynamic_prompt() {
case "$image_backend" in
"image")
get_term_padding 2>/dev/null
# Calculate image height in terminal cells.
lines="$(((border * 2 + height + yoffset) / font_height))"
;;
"off") return ;;
esac
# If the info is higher than the ascii/image place the prompt
# based on the info height instead of the ascii/image height.
if ((lines < info_height)); then
printf "\n"
return
else
lines="$((lines - info_height))"
fi
# Set the prompt location.
if ((lines < 0)); then
printf "%b" "\033[${lines/-}A"
else
printf "%b" "\033[${lines}B"
fi
# Add some padding.
printf "\n\n\n\n"
}
old_functions() {
# Deprecated functions.
# Neofetch 2.0 changed the names of a few variables.
# This function adds backwards compatibility for the
# old variable names.
if type printinfo >/dev/null 2>&1; then
print_info() { printinfo ; }
get_wmtheme() { get_wm_theme; wmtheme="$wm_theme"; }
get_termfont() { get_term_font; termfont="$term_font"; }
get_localip() { get_local_ip; localip="$local_ip"; }
get_publicip() { get_public_ip; publicip="$public_ip"; }
get_linebreak() { get_line_break; linebreak="$line_break"; }
fi
get_birthday() { get_install_date; birthday="$install_date"; }
}
old_options() {
[[ -n "$osx_buildversion" ]] && err "Config: \$osx_buildversion is deprecated, use \$distro_shorthand instead."
[[ -n "$osx_codename" ]] && err "Config: \$osx_codename is deprecated, use \$distro_shorthand instead."
[[ "$cpu_cores" == "on" ]] && err "Config: cpu_cores='on' is deprecated, use cpu_cores='logical|physical|off' instead."
[[ -n "$image" ]] && { err "Config: \$image is deprecated, use \$image_source instead."; image_source="$image"; }
# All progress_ variables were changed to bar_.
[[ -n "$progress_char" ]] && err "Config: \$progress_char is deprecated, use \$bar_char_elapsed and \$bar_char_total instead."
[[ -n "$progress_border" ]] && err "Config: \$progress_border is deprecated, use \$bar_border instead."
[[ -n "$progress_length" ]] && err "Config: \$progress_length is deprecated, use \$bar_length instead."
[[ -n "$progress_color_elapsed" ]] && err "Config: \$progress_color_elapsed is deprecated, use \$bar_color_elapsed instead."
[[ -n "$progress_color_total" ]] && err "Config: \$progress_color_total is deprecated, use \$bar_color_total instead."
# All cpufreq values were changed in 2.1.0.
[[ "$speed_type" == "current" ]] && err "Config: speed_type='current' is deprecated, use speed_type='scaling_cur_freq' instead."
[[ "$speed_type" == "min" ]] && err "Config: speed_type='min' is deprecated, use speed_type='scaling_min_freq' instead."
[[ "$speed_type" == "max" ]] && err "Config: speed_type='max' is deprecated, use speed_type='scaling_max_freq' instead."
[[ "$speed_type" == "bios" ]] && err "Config: speed_type='bios' is deprecated, use speed_type='bios_limit' instead."
# Ascii_logo_size was removed in 2.1.0.
[[ "$ascii_logo_size" ]] && err "Config: ascii_logo_size is deprecated, use ascii_distro='{arch,crux,gentoo}_small' instead."
# $start and $end were replaced with ${block_range[@]} in 2.1.0.
[[ "$start" && "$end" ]] && { err "Config: \$start and \$end are deprecated, use block_range=(0 7) instead."; block_range=("$start" "$end"); }
# Fahrenheit support was added to CPU so the options were changed.
[[ "$cpu_temp" == "on" ]] && { err "Config: cpu_temp='on' is deprecated, use cpu_temp='C' or 'F' instead."; cpu_temp="C"; }
}
cache_uname() {
# Cache the output of uname so we don't
# have to spawn it multiple times.
uname=($(uname -srm))
kernel_name="${uname[0]}"
kernel_version="${uname[1]}"
machine_arch="${uname[2]}"
}
convert_time() {
# Convert ls timestamp to 'Tue 06 Dec 2016 4:58 PM' format.
year="$1"
day="$3"
# Split time into hours/minutes.
hour="${4/:*}"
min="${4/${hour}}"
# Get month. (Month code is used for day of week)
# Due to different versions of 'ls', the month can be 1, 01 or Jan.
case "$2" in
1 | 01 | "Jan") month="Jan"; month_code=0 ;;
2 | 02 | "Feb") month="Feb"; month_code=3 ;;
3 | 03 | "Mar") month="Mar"; month_code=3 ;;
4 | 04 | "Apr") month="Apr"; month_code=6 ;;
5 | 05 | "May") month="May"; month_code=1 ;;
6 | 06 | "Jun") month="Jun"; month_code=4 ;;
7 | 07 | "Jul") month="Jul"; month_code=6 ;;
8 | 08 | "Aug") month="Aug"; month_code=2 ;;
9 | 09 | "Sep") month="Sep"; month_code=5 ;;
10 | "Oct") month="Oct"; month_code=0 ;;
11 | "Nov") month="Nov"; month_code=3 ;;
12 | "Dec") month="Dec"; month_code=5 ;;
esac
# Get leap year.
# Source: http://stackoverflow.com/questions/725098/leap-year-calculation
[[ "$((year % 4))" == 0 && "$((year % 100))" != 0 || "$((year % 400))" == 0 ]] && \
[[ "$month" =~ (Jan|Feb) ]] && \
leap_code=1
# Calculate day of week.
# Source: http://blog.artofmemory.com/how-to-calculate-the-day-of-the-week-4203.html
year_code="$((${year/??} + (${year/??} / 4) % 7))"
week_day="$(((year_code + month_code + 6 + day - leap_code) % 7))"
case "$week_day" in
0) week_day="Sun" ;;
1) week_day="Mon" ;;
2) week_day="Tue" ;;
3) week_day="Wed" ;;
4) week_day="Thu" ;;
5) week_day="Fri" ;;
6) week_day="Sat" ;;
esac
# Convert 24 hour time to 12 hour time + AM/PM.
case "$install_time_format" in
"12h")
case "$hour" in
[0-9] | 0[0-9] | 1[0-1]) time="${hour/00/12}${min} AM" ;;
*) time="$((hour - 12))${min} PM" ;;
esac
;;
*) time="$4" ;;
esac
# Toggle showing the time.
[[ "$install_time" == "off" ]] && unset time
# Print the install date.
printf "%s" "$week_day $day $month $year $time"
}
get_ppid() {
# Get parent process ID of PID.
case "$os" in
"Windows")
ppid="$(ps -p "${1:-$PPID}" | awk '{printf $2}')"
ppid="${ppid/'PPID'}"
;;
"Linux")
ppid="$(grep -i -F "PPid:" "/proc/${1:-$PPID}/status")"
ppid="$(trim "${ppid/PPid:}")"
;;
*)
ppid="$(ps -p "${1:-$PPID}" -o ppid=)"
;;
esac
printf "%s" "$ppid"
}
get_process_name() {
# Get PID name.
case "$os" in
"Windows")
name="$(ps -p "${1:-$PPID}" | awk '{printf $8}')"
name="${name/'COMMAND'}"
name="${name/*\/}"
;;
"Linux")
name="$(< "/proc/${1:-$PPID}/comm")"
;;
*)
name="$(ps -p "${1:-$PPID}" -o comm=)"
;;
esac
printf "%s" "$name"
}
decode_url() {
decode="${1//+/ }"
printf "%b" "${decode//%/\\x}"
}
# FINISH UP
usage() { printf "%s" "\
Usage: neofetch --option \"value\" --option \"value\"
Neofetch is a CLI system information tool written in BASH. Neofetch
displays information about your system next to an image, your OS logo,
or any ASCII file of your choice.
NOTE: Every launch flag has a config option.
Options:
INFO:
--disable infoname Allows you to disable an info line from appearing
in the output.
NOTE: You can supply multiple args. eg. 'neofetch --disable cpu gpu disk shell'
--os_arch on/off Hide/Show OS architecture.
--speed_type type Change the type of cpu speed to display.
Possible values: current, min, max, bios,
scaling_current, scaling_min, scaling_max
NOTE: This only supports Linux with cpufreq.
--cpu_shorthand type Shorten the output of CPU
Possible values: name, speed, tiny, on, off
--cpu_cores type Whether or not to display the number of CPU cores
Takes: logical, physical, off
NOTE: 'physical' doesn't work on BSD.
--cpu_speed on/off Hide/Show cpu speed.
--cpu_temp C/F/off Hide/Show cpu temperature.
NOTE: This only works on Linux and BSD.
NOTE: For FreeBSD-based systems, you need to enable coretemp kernel module.
--distro_shorthand on/off Shorten the output of distro (tiny, on, off)
NOTE: This option won't work in Windows (Cygwin)
--kernel_shorthand on/off Shorten the output of kernel
NOTE: This option won't work in BSDs (except PacBSD and PC-BSD)
--uptime_shorthand on/off Shorten the output of uptime (tiny, on, off)
--refresh_rate on/off Whether to display the refresh rate of each monitor
Unsupported on Windows
--gpu_brand on/off Enable/Disable GPU brand in output. (AMD/NVIDIA/Intel)
--gpu_type type Which GPU to display. (all, dedicated, integrated)
NOTE: This only supports Linux.
--gtk_shorthand on/off Shorten output of gtk theme/icons
--gtk2 on/off Enable/Disable gtk2 theme/font/icons output
--gtk3 on/off Enable/Disable gtk3 theme/font/icons output
--shell_path on/off Enable/Disable showing \$SHELL path
--shell_version on/off Enable/Disable showing \$SHELL version
--disk_show value Which disks to display.
Takes: '/', '/dev/sdXX', '/path/to/mount point'
NOTE: Multiple values can be given. (--disk_show '/' '/dev/sdc1')
--disk_subtitle name/mount What information to append to the Disk subtitle.
'name' shows the disk's name (sda1, sda2, etc)
'mount' shows the disk's mount point (/, /mnt/Local Disk, etc)
--ip_host url URL to query for public IP
--song_shorthand on/off Print the Artist/Title on separate lines
--install_time on/off Enable/Disable showing the time in Install Date output.
--install_time_format 12h/24h
Set time format in Install Date to be 12 hour or 24 hour.
TEXT FORMATTING:
--colors x x x x x x Changes the text colors in this order:
title, @, underline, subtitle, colon, info
--underline on/off Enable/Disable the underline.
--underline_char char Character to use when underlining title
--bold on/off Enable/Disable bold text
COLOR BLOCKS:
--color_blocks on/off Enable/Disable the color blocks
--block_width num Width of color blocks in spaces
--block_height num Height of color blocks in lines
--block_range num num Range of colors to print as blocks
BARS:
--bar_char 'elapsed char' 'total char'
Characters to use when drawing bars.
--bar_border on/off Whether or not to surround the bar with '[]'
--bar_length num Length in spaces to make the bars.
--bar_colors num num Colors to make the bar.
Set in this order: elapsed, total
--cpu_display mode Bar mode.
Takes: bar, infobar, barinfo, off
--memory_display mode Bar mode.
Takes: bar, infobar, barinfo, off
--battery_display mode Bar mode.
Takes: bar, infobar, barinfo, off
--disk_display mode Bar mode.
Takes: bar, infobar, barinfo, off
IMAGE:
--image type Image source. Where and what image we display.
Possible values: wall, ascii,
/path/to/img, /path/to/dir/, off
--size 00px | --size 00% How to size the image.
Possible values: auto, 00px, 00%, none
--crop_mode mode Which crop mode to use
Takes the values: normal, fit, fill
--crop_offset value Change the crop offset for normal mode.
Possible values: northwest, north, northeast,
west, center, east, southwest, south, southeast
--xoffset px How close the image will be to the left edge of the
window. This only works with w3m.
--yoffset px How close the image will be to the top edge of the
window. This only works with w3m.
--bg_color color Background color to display behind transparent image.
This only works with w3m.
--gap num Gap between image and text.
NOTE: --gap can take a negative value which will move the text closer to the left side.
--clean Delete cached files and thumbnails.
ASCII:
--ascii value Where to get the ascii from, Possible values:
distro, /path/to/ascii
--ascii_colors x x x x x x Colors to print the ascii art
--ascii_distro distro Which Distro's ascii art to print
NOTE: Arch and Ubuntu have 'old' logo variants.
NOTE: Use 'arch_old' or 'ubuntu_old' to use the old logos.
NOTE: Ubuntu has flavor variants.
NOTE: Change this to 'Lubuntu', 'Xubuntu', 'Ubuntu-GNOME', 'Ubuntu-Studio' or 'Ubuntu-Budgie' to use the flavors.
NOTE: Arch, Crux and Gentoo have a smaller logo variant.
NOTE: Change this to 'arch_small', 'crux_small' or 'gentoo_small' to use the small logos.
--ascii_bold on/off Whether or not to bold the ascii logo.
-L, --logo Hide the info text and only show the ascii logo.
SCREENSHOT:
-s, --scrot /path/to/img Take a screenshot, if path is left empty the screen-
shot function will use \$scrot_dir and \$scrot_name.
-su, --upload /path/to/img Same as --scrot but uploads the scrot to a website.
--image_host Website to upload scrots to. Takes: imgur, teknik
--scrot_cmd cmd Screenshot program to launch
OTHER:
--config /path/to/config Specify a path to a custom config file
--config none Launch the script without a config file
--help Print this text and exit
--version Show neofetch version
-v Display error messages.
-vv Display a verbose log for error reporting.
DEVELOPER:
--gen-man Generate a manpage for Neofetch in your PWD. (Requires GNU help2man)
Report bugs to https://github.com/dylanaraps/neofetch/issues
"
exit 1
}
version() { printf "%s" "\
Neofetch 2.1.0
Copyright (c) 2016 Dylan Araps
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the 'Software'), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
Written by Dylan Araps with help from the following people:
https://github.com/dylanaraps/neofetch/contributors
"
exit 1
}
get_args() {
# Check the commandline flags early for '--config'.
[[ "$@" =~ --config ]] || get_user_config 2>/dev/null
while [[ "$1" ]]; do
case "$1" in
# Info
"--os_arch") os_arch="$2" ;;
"--cpu_cores") cpu_cores="$2" ;;
"--cpu_speed") cpu_speed="$2" ;;
"--speed_type") speed_type="$2" ;;
"--distro_shorthand") distro_shorthand="$2" ;;
"--kernel_shorthand") kernel_shorthand="$2" ;;
"--uptime_shorthand") uptime_shorthand="$2" ;;
"--cpu_shorthand") cpu_shorthand="$2" ;;
"--gpu_brand") gpu_brand="$2" ;;
"--gpu_type") gpu_type="$2" ;;
"--refresh_rate") refresh_rate="$2" ;;
"--gtk_shorthand") gtk_shorthand="$2" ;;
"--gtk2") gtk2="$2" ;;
"--gtk3") gtk3="$2" ;;
"--shell_path") shell_path="$2" ;;
"--shell_version") shell_version="$2" ;;
"--ip_host") public_ip_host="$2" ;;
"--song_shorthand") song_shorthand="$2" ;;
"--install_time") install_time="$2" ;;
"--install_time_format") install_time_format="$2" ;;
"--cpu_temp")
cpu_temp="$2"
[[ "$cpu_temp" == "on" ]] && cpu_temp="C"
;;
"--disk_subtitle") disk_subtitle="$2" ;;
"--disk_show")
unset disk_show
for arg in "$@"; do
case "$arg" in
"--disk_show") ;;
"-"*) break ;;
*) disk_show+=($arg)
esac
done
;;
"--disable")
for func in "$@"; do
case "$func" in
"--disable") continue ;;
"-"*) break ;;
*)
((bash_version >= 4)) && func="${func,,}"
unset -f "get_$func"
;;
esac
done
;;
# Text Colors
"--colors")
unset colors
for arg in "$2" "$3" "$4" "$5" "$6" "$7"; do
case "$arg" in
"-"*) break ;;
*) colors+=($arg)
esac
done
colors+=(7 7 7 7 7 7)
;;
# Text Formatting
"--underline") underline_enabled="$2" ;;
"--underline_char") underline_char="$2" ;;
"--bold") bold="$2" ;;
# Color Blocks
"--color_blocks") color_blocks="$2" ;;
"--block_range") block_range=("$2" "$3") ;;
"--block_width") block_width="$2" ;;
"--block_height") block_height="$2" ;;
# Bars
"--bar_char")
bar_char_elapsed="$2"
bar_char_total="$3"
;;
"--bar_border") bar_border="$2" ;;
"--bar_length") bar_length="$2" ;;
"--bar_colors")
bar_color_elapsed="$2"
bar_color_total="$3"
;;
"--cpu_display") cpu_display="$2" ;;
"--memory_display") memory_display="$2" ;;
"--battery_display") battery_display="$2" ;;
"--disk_display") disk_display="$2" ;;
# Image
"--image")
image_source="$2"
case "$2" in "-"* | "" | "ascii") image_backend="ascii" ;; esac
;;
"--image_size" | "--size") image_size="$2" ;;
"--crop_mode") crop_mode="$2" ;;
"--crop_offset") crop_offset="$2" ;;
"--xoffset") xoffset="$2" ;;
"--yoffset") yoffset="$2" ;;
"--background_color" | "--bg_color") background_color="$2" ;;
"--gap") gap="$2" ;;
"--clean")
[[ -d "$thumbnail_dir" ]] && rm -rf "$thumbnail_dir"
rm -rf "/Library/Caches/neofetch/"
rm -rf "/tmp/neofetch/"
exit
;;
# Ascii
"--ascii")
image_backend="ascii"
ascii="$2"
case "$2" in "-"* | "") ascii="distro" ;; esac
;;
"--ascii_colors")
unset ascii_colors
for arg in "$2" "$3" "$4" "$5" "$6" "$7"; do
case "$arg" in
"-"*) break ;;
*) ascii_colors+=($arg)
esac
done
ascii_colors+=(7 7 7 7 7 7)
;;
"--ascii_distro")
image_backend="ascii"
ascii_distro="$2"
case "$2" in "-"* | "") ascii_distro="$distro" ;; esac
;;
"--ascii_bold") ascii_bold="$2" ;;
"--logo" | "-L")
image_backend="ascii"
print_info() { info line_break; }
;;
# Screenshot
"--scrot" | "-s")
scrot_args "$@"
;;
"--upload" | "-su")
scrot_upload="on"
scrot_args "$@"
;;
"--image_host") image_host="$2" ;;
"--scrot_cmd") scrot_cmd="$2" ;;
# Other
"--config")
case "$2" in
"none" | "off" | "") config="off" ;;
*) config_file="$2"; config="on"; get_user_config 2>/dev/null ;;
esac
;;
"-v") verbose="on" ;;
"-vv") set -x; verbose="on" ;;
"--help") usage ;;
"--version") version ;;
"--gen-man") help2man -n"A fast, highly customizable system info script" -N ./neofetch -o neofetch.1; exit 1 ;;
esac
shift
done
}
main() {
cache_uname
get_os
get_default_config 2>/dev/null
get_args "$@"
get_distro 2>/dev/null
get_bold
get_distro_colors
# Minix doesn't support these sequences.
if [[ "$TERM" != "minix" ]]; then
# If the script exits for any reason, unhide the cursor.
trap 'printf "\033[?25h\033[?7h"' EXIT
# Hide the cursor and disable line wrap.
printf "\033[?25l\033[?7l"
fi
get_image_backend
old_functions
get_cache_dir
print_info 2>/dev/null
dynamic_prompt
# w3m-img: Draw the image a second time to fix
# rendering issues in specific terminal emulators.
[[ "$image_backend" == "image" && "$image_program" == "w3m" ]] && display_image
# Take a screenshot.
[[ "$scrot" == "on" ]] && take_scrot
# Show error messages.
[[ "$verbose" == "on" ]] && printf "%b" "$err" >&2
return 0
}
main "$@"