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njenan/gist:216534f7e4451229c0f435672afc61d7

Created December 30, 2020 04:13
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neofetch output iterm2 v3.3.12
Raw
gistfile1.txt
+ verbose=on
+ shift
+ [[ -n '' ]]
+ [[ on != on ]]
+ get_simple -vv
+ [[ -n -vv ]]
++ type -t get_-vv
+ [[ '' == \f\u\n\c\t\i\o\n ]]
+ shift
+ [[ -n '' ]]
+ (( simple ))
+ get_distro
+ [[ -n '' ]]
+ case $os in
+ case $osx_version in
+ codename='macOS Catalina'
+ distro='macOS Catalina 10.15.7 19H15'
+ case $distro_shorthand in
+ distro='macOS Catalina 10.15.7 19H15'
+ [[ -n macOS Catalina 10.15.7 19H15 ]]
+ case $os in
+ machine_arch=x86_64
+ [[ on == on ]]
+ distro+=' x86_64'
+ [[ auto == auto ]]
++ trim 'macOS Catalina 10.15.7 19H15 x86_64'
++ set -f
++ set -- macOS Catalina 10.15.7 19H15 x86_64
++ printf '%s\n' 'macOS Catalina 10.15.7 19H15 x86_64'
++ set +f
+ ascii_distro='macOS Catalina 10.15.7 19H15 x86_64'
+ get_bold
+ case $ascii_bold in
+ ascii_bold='\e[1m'
+ case $bold in
+ bold='\e[1m'
+ get_distro_ascii
+ case $(trim "$ascii_distro") in
++ trim 'macOS Catalina 10.15.7 19H15 x86_64'
++ set -f
++ set -- macOS Catalina 10.15.7 19H15 x86_64
++ printf '%s\n' 'macOS Catalina 10.15.7 19H15 x86_64'
++ set +f
+ set_colors 2 3 1 1 5 4
++ color 2
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 2
+ c1='\e[1m'
++ color 3
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 3
+ c2='\e[1m'
++ color 1
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 1
+ c3='\e[1m'
++ color 1
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 1
+ c4='\e[1m'
++ color 5
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 5
+ c5='\e[1m'
++ color 4
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 4
+ c6='\e[1m'
+ [[ '' != \o\f\f ]]
+ set_text_colors 2 3 1 1 5 4
+ [[ distro == \d\i\s\t\r\o ]]
++ color 2
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 2
+ title_color=''
+ at_color='\e[0m'
+ underline_color='\e[0m'
++ color 3
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 3
+ subtitle_color=''
+ colon_color='\e[0m'
+ info_color='\e[0m'
+ (( 2 == 8 ))
+ (( 3 == 8 ))
+ (( 3 == 7 ))
+ (( 2 == 7 ))
+ [[ distro == \d\i\s\t\r\o ]]
++ color fg
++ case $1 in
++ printf '\e[37m%b' '\e[0m'
+ bar_color_elapsed=''
+ case ${bar_color_total}${1} in
++ color 3
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 3
+ bar_color_total=''
+ read -rd '' ascii_data
+ [[ distro != distro ]]
+ [[ off == on ]]
+ [[ xterm-256color != minix ]]
+ [[ off != on ]]
+ trap 'printf "\e[?25h\e[?7h"' EXIT
+ printf '\e[?25l\e[?7l'
+ image_backend
+ [[ iterm2 != \o\f\f ]]
+ type -p convert
+ case ${image_backend:-off} in
+ get_image_source
+ case $image_source in
++ get_full_path /Users/njenan/cookies.jpg
++ [[ -f /Users/njenan/git/neofetch//Users/njenan/cookies.jpg ]]
++ cd /Users/njenan
++ local full_dir=cookies.jpg
++ [[ -L cookies.jpg ]]
+++ pwd -P
++ full_dir=/Users/njenan/cookies.jpg
++ [[ -e /Users/njenan/cookies.jpg ]]
++ printf '%s\n' /Users/njenan/cookies.jpg
+ image_source=/Users/njenan/cookies.jpg
+ [[ -d /Users/njenan/cookies.jpg ]]
+ image=/Users/njenan/cookies.jpg
+ err 'Image: Using image '\''/Users/njenan/cookies.jpg'\'''
++ color 1
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 1
+ err+='[!]\e[0m Image: Using image '\''/Users/njenan/cookies.jpg'\''
'
+ [[ ! -f /Users/njenan/cookies.jpg ]]
+ get_window_size
+ [[ iterm2 == \t\y\c\a\t ]]
+ [[ -z '' ]]
+ case ${TMUX:-null} in
+ printf %b '\e[14t'
+ case $bash_version in
+ IFS=';t'
+ read -d t -t 1 -sra term_size
+ unset IFS
+ [[ iterm2 == \t\y\c\a\t ]]
+ term_height=452
+ term_width=570
+ (( 570 < 50 ))
+ term_width=570
+ (( term_width < 1 ))
+ printf '\e[2J\e[H'
+ get_image_size
+ get_term_size
+ read -r lines columns
++ stty size
+ font_width=7
+ font_height=18
+ case $image_size in
+ image_size=280
+ term_height=339
+ (( term_height < image_size ))
+ [[ iterm2 == \w\3\m ]]
+ width=280
+ height=280
+ text_padding=43
+ make_thumbnail
+ image_name=normal-center-280-280-Usersnjenancookies.jpg
+ case ${image##*.} in
+ image_name+=.jpg
+ mkdir -p /Users/njenan/.cache/thumbnails/neofetch
+ [[ ! -f /Users/njenan/.cache/thumbnails/neofetch/normal-center-280-280-Usersnjenancookies.jpg.jpg ]]
+ image=/Users/njenan/.cache/thumbnails/neofetch/normal-center-280-280-Usersnjenancookies.jpg.jpg
+ display_image
+ case $image_backend in
++ base64
+ printf -v iterm_cmd '\e]1337;File=width=%spx;height=%spx;inline=1:%s' 280 280 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
+ [[ -n '' ]]
+ printf '%b\a\n' 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'
+ [[ iterm2 != \o\f\f ]]
+ printf '\e[%sA\e[9999999D' 25
+ get_cache_dir
+ case $os in
+ cache_dir=/Library/Caches
+ old_functions
+ print_info
+ info title
+ [[ -n '' ]]
+ unset -v prin
+ get_title
+ user=njenan
+ case $title_fqdn in
+ hostname=Nathaniels-MacBook-Pro.local
+ title='\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
+ length=35
+ [[ -n '' ]]
+ [[ -n '' ]]
++ trim '\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ set -f
++ set -- '\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ printf '%s\n' '\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ set +f
+ output='\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
+ [[ -n '' ]]
+ [[ -n \e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local ]]
+ prin '\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ trim '\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ set -f
++ set -- '\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ printf '%s\n' '\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ set +f
+ [[ -n \e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local ]]
+ [[ -n '' ]]
+ string='\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
+ local 'subtitle_color=\e[0m'
++ trim '\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ set -f
++ set -- '\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ printf '%s\n' '\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ set +f
+ string='\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ strip_sequences '\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ strip='\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ strip='\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
++ strip='njenan@Nathaniels-MacBook-Pro.local'
++ strip='njenan@Nathaniels-MacBook-Pro.local'
++ strip='njenan@Nathaniels-MacBook-Pro.local'
++ strip=njenan@Nathaniels-MacBook-Pro.local
++ printf '%s\n' njenan@Nathaniels-MacBook-Pro.local
+ length=njenan@Nathaniels-MacBook-Pro.local
+ length=35
+ string='\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
+ string='\e[0m\e[1m\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local'
+ printf '%b\n' '\e[43C\e[0m\e[1m\e[1mnjenan\e[0m@\e[1mNathaniels-MacBook-Pro.local\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info underline
+ [[ -n '' ]]
+ unset -v prin
+ get_underline
+ [[ on == \o\n ]]
+ printf -v underline %35s
+ printf '%b%b\n' '\e[43C\e[0m' '-----------------------------------\e[0m '
+ (( ++info_height ))
+ length=
+ prin=1
+ [[ -n 1 ]]
+ return
+ info OS distro
+ [[ -n distro ]]
+ subtitle=OS
+ unset -v prin
+ get_distro
+ [[ -n macOS Catalina 10.15.7 19H15 x86_64 ]]
+ return
+ [[ -n '' ]]
+ [[ -n distro ]]
++ trim 'macOS Catalina 10.15.7 19H15 x86_64'
++ set -f
++ set -- macOS Catalina 10.15.7 19H15 x86_64
++ printf '%s\n' 'macOS Catalina 10.15.7 19H15 x86_64'
++ set +f
+ output='macOS Catalina 10.15.7 19H15 x86_64'
+ [[ -n distro ]]
+ [[ -n macOSCatalina10.15.719H15x86_64 ]]
+ prin OS 'macOS Catalina 10.15.7 19H15 x86_64'
++ trim OS
++ set -f
++ set -- OS
++ printf '%s\n' OS
++ set +f
+ [[ -n OS ]]
+ [[ -n macOS Catalina 10.15.7 19H15 x86_64 ]]
+ [[ -n '' ]]
+ string='OS: macOS Catalina 10.15.7 19H15 x86_64'
++ trim 'OS: macOS Catalina 10.15.7 19H15 x86_64'
++ set -f
++ set -- OS: macOS Catalina 10.15.7 19H15 x86_64
++ printf '%s\n' 'OS: macOS Catalina 10.15.7 19H15 x86_64'
++ set +f
+ string='OS: macOS Catalina 10.15.7 19H15 x86_64'
++ strip_sequences 'OS: macOS Catalina 10.15.7 19H15 x86_64'
++ strip='OS: macOS Catalina 10.15.7 19H15 x86_64'
++ strip='OS: macOS Catalina 10.15.7 19H15 x86_64'
++ strip='OS: macOS Catalina 10.15.7 19H15 x86_64'
++ strip='OS: macOS Catalina 10.15.7 19H15 x86_64'
++ strip='OS: macOS Catalina 10.15.7 19H15 x86_64'
++ strip='OS: macOS Catalina 10.15.7 19H15 x86_64'
++ printf '%s\n' 'OS: macOS Catalina 10.15.7 19H15 x86_64'
+ length='OS: macOS Catalina 10.15.7 19H15 x86_64'
+ length=39
+ string='OS\e[0m\e[0m:\e[0m macOS Catalina 10.15.7 19H15 x86_64'
+ string='\e[1mOS\e[0m\e[0m:\e[0m macOS Catalina 10.15.7 19H15 x86_64'
+ printf '%b\n' '\e[43C\e[1mOS\e[0m\e[0m:\e[0m macOS Catalina 10.15.7 19H15 x86_64\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info Host model
+ [[ -n model ]]
+ subtitle=Host
+ unset -v prin
+ get_model
+ case $os in
++ kextstat
++ grep -F -e FakeSMC -e VirtualSMC
+ [[ '' != '' ]]
++ sysctl -n hw.model
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ model=MacBookPro11,4
+ case $model in
+ [[ -n '' ]]
+ [[ -n model ]]
++ trim MacBookPro11,4
++ set -f
++ set -- MacBookPro11,4
++ printf '%s\n' MacBookPro11,4
++ set +f
+ output=MacBookPro11,4
+ [[ -n model ]]
+ [[ -n MacBookPro11,4 ]]
+ prin Host MacBookPro11,4
++ trim Host
++ set -f
++ set -- Host
++ printf '%s\n' Host
++ set +f
+ [[ -n Host ]]
+ [[ -n MacBookPro11,4 ]]
+ [[ -n '' ]]
+ string='Host: MacBookPro11,4'
++ trim 'Host: MacBookPro11,4'
++ set -f
++ set -- Host: MacBookPro11,4
++ printf '%s\n' 'Host: MacBookPro11,4'
++ set +f
+ string='Host: MacBookPro11,4'
++ strip_sequences 'Host: MacBookPro11,4'
++ strip='Host: MacBookPro11,4'
++ strip='Host: MacBookPro11,4'
++ strip='Host: MacBookPro11,4'
++ strip='Host: MacBookPro11,4'
++ strip='Host: MacBookPro11,4'
++ strip='Host: MacBookPro11,4'
++ printf '%s\n' 'Host: MacBookPro11,4'
+ length='Host: MacBookPro11,4'
+ length=20
+ string='Host\e[0m\e[0m:\e[0m MacBookPro11,4'
+ string='\e[1mHost\e[0m\e[0m:\e[0m MacBookPro11,4'
+ printf '%b\n' '\e[43C\e[1mHost\e[0m\e[0m:\e[0m MacBookPro11,4\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info Kernel kernel
+ [[ -n kernel ]]
+ subtitle=Kernel
+ unset -v prin
+ get_kernel
+ [[ Mac OS X =~ (AIX|IRIX) ]]
+ [[ Mac OS X == Haiku ]]
+ [[ Mac OS X == Windows ]]
+ case $kernel_shorthand in
+ kernel=19.6.0
+ [[ Mac OS X =~ (BSD|MINIX) ]]
+ [[ -n '' ]]
+ [[ -n kernel ]]
++ trim 19.6.0
++ set -f
++ set -- 19.6.0
++ printf '%s\n' 19.6.0
++ set +f
+ output=19.6.0
+ [[ -n kernel ]]
+ [[ -n 19.6.0 ]]
+ prin Kernel 19.6.0
++ trim Kernel
++ set -f
++ set -- Kernel
++ printf '%s\n' Kernel
++ set +f
+ [[ -n Kernel ]]
+ [[ -n 19.6.0 ]]
+ [[ -n '' ]]
+ string='Kernel: 19.6.0'
++ trim 'Kernel: 19.6.0'
++ set -f
++ set -- Kernel: 19.6.0
++ printf '%s\n' 'Kernel: 19.6.0'
++ set +f
+ string='Kernel: 19.6.0'
++ strip_sequences 'Kernel: 19.6.0'
++ strip='Kernel: 19.6.0'
++ strip='Kernel: 19.6.0'
++ strip='Kernel: 19.6.0'
++ strip='Kernel: 19.6.0'
++ strip='Kernel: 19.6.0'
++ strip='Kernel: 19.6.0'
++ printf '%s\n' 'Kernel: 19.6.0'
+ length='Kernel: 19.6.0'
+ length=14
+ string='Kernel\e[0m\e[0m:\e[0m 19.6.0'
+ string='\e[1mKernel\e[0m\e[0m:\e[0m 19.6.0'
+ printf '%b\n' '\e[43C\e[1mKernel\e[0m\e[0m:\e[0m 19.6.0\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info Uptime uptime
+ [[ -n uptime ]]
+ subtitle=Uptime
+ unset -v prin
+ get_uptime
+ case $os in
++ sysctl -n kern.boottime
+ boot='{ sec = 1608785444, usec = 890887 } Wed Dec 23 21:50:44 2020'
+ boot='1608785444, usec = 890887 } Wed Dec 23 21:50:44 2020'
+ boot=1608785444
++ date +%s
+ now=1609301497
+ s=516053
+ d='5 days'
+ h='23 hours'
+ m='20 mins'
+ (( 5 == 1 ))
+ (( 23 == 1 ))
+ (( 20 == 1 ))
+ (( 5 == 0 ))
+ (( 23 == 0 ))
+ (( 20 == 0 ))
+ uptime='5 days, 23 hours, 20 mins'
+ uptime='5 days, 23 hours, 20 mins'
+ uptime='5 days, 23 hours, 20 mins'
+ case $uptime_shorthand in
+ [[ -n '' ]]
+ [[ -n uptime ]]
++ trim '5 days, 23 hours, 20 mins'
++ set -f
++ set -- 5 days, 23 hours, 20 mins
++ printf '%s\n' '5 days, 23 hours, 20 mins'
++ set +f
+ output='5 days, 23 hours, 20 mins'
+ [[ -n uptime ]]
+ [[ -n 5days,23hours,20mins ]]
+ prin Uptime '5 days, 23 hours, 20 mins'
++ trim Uptime
++ set -f
++ set -- Uptime
++ printf '%s\n' Uptime
++ set +f
+ [[ -n Uptime ]]
+ [[ -n 5 days, 23 hours, 20 mins ]]
+ [[ -n '' ]]
+ string='Uptime: 5 days, 23 hours, 20 mins'
++ trim 'Uptime: 5 days, 23 hours, 20 mins'
++ set -f
++ set -- Uptime: 5 days, 23 hours, 20 mins
++ printf '%s\n' 'Uptime: 5 days, 23 hours, 20 mins'
++ set +f
+ string='Uptime: 5 days, 23 hours, 20 mins'
++ strip_sequences 'Uptime: 5 days, 23 hours, 20 mins'
++ strip='Uptime: 5 days, 23 hours, 20 mins'
++ strip='Uptime: 5 days, 23 hours, 20 mins'
++ strip='Uptime: 5 days, 23 hours, 20 mins'
++ strip='Uptime: 5 days, 23 hours, 20 mins'
++ strip='Uptime: 5 days, 23 hours, 20 mins'
++ strip='Uptime: 5 days, 23 hours, 20 mins'
++ printf '%s\n' 'Uptime: 5 days, 23 hours, 20 mins'
+ length='Uptime: 5 days, 23 hours, 20 mins'
+ length=33
+ string='Uptime\e[0m\e[0m:\e[0m 5 days, 23 hours, 20 mins'
+ string='\e[1mUptime\e[0m\e[0m:\e[0m 5 days, 23 hours, 20 mins'
+ printf '%b\n' '\e[43C\e[1mUptime\e[0m\e[0m:\e[0m 5 days, 23 hours, 20 mins\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info Packages packages
+ [[ -n packages ]]
+ subtitle=Packages
+ unset -v prin
+ get_packages
+ [[ -f /bedrock/etc/bedrock-release ]]
+ case $os in
+ has port
+ type -p port
+ has brew
+ type -p brew
+ manager=brew
+ dir /usr/local/Cellar/adns /usr/local/Cellar/aom /usr/local/Cellar/bdw-gc /usr/local/Cellar/c-ares /usr/local/Cellar/cairo /usr/local/Cellar/cask /usr/local/Cellar/dav1d /usr/local/Cellar/direnv /usr/local/Cellar/docbook /usr/local/Cellar/docbook-xsl /usr/local/Cellar/emacs /usr/local/Cellar/ffmpeg /usr/local/Cellar/flac /usr/local/Cellar/fontconfig /usr/local/Cellar/freetype /usr/local/Cellar/frei0r /usr/local/Cellar/fribidi /usr/local/Cellar/gdbm /usr/local/Cellar/gettext /usr/local/Cellar/ghostscript /usr/local/Cellar/giflib /usr/local/Cellar/glib /usr/local/Cellar/gmp /usr/local/Cellar/gnu-getopt /usr/local/Cellar/gnu-sed /usr/local/Cellar/gnupg /usr/local/Cellar/gnutls /usr/local/Cellar/gobject-introspection /usr/local/Cellar/gopass /usr/local/Cellar/graphite2 /usr/local/Cellar/grep /usr/local/Cellar/guile /usr/local/Cellar/harfbuzz /usr/local/Cellar/icu4c /usr/local/Cellar/ilmbase /usr/local/Cellar/imagemagick /usr/local/Cellar/imgcat /usr/local/Cellar/jansson /usr/local/Cellar/jemalloc /usr/local/Cellar/jpeg /usr/local/Cellar/jq /usr/local/Cellar/kubectx /usr/local/Cellar/kubernetes-cli /usr/local/Cellar/lame /usr/local/Cellar/leptonica /usr/local/Cellar/libass /usr/local/Cellar/libassuan /usr/local/Cellar/libbluray /usr/local/Cellar/libde265 /usr/local/Cellar/libev /usr/local/Cellar/libevent /usr/local/Cellar/libffi /usr/local/Cellar/libgcrypt /usr/local/Cellar/libgpg-error /usr/local/Cellar/libheif /usr/local/Cellar/libidn2 /usr/local/Cellar/libksba /usr/local/Cellar/liblqr /usr/local/Cellar/libogg /usr/local/Cellar/libomp /usr/local/Cellar/libpng /usr/local/Cellar/libsamplerate /usr/local/Cellar/libsndfile /usr/local/Cellar/libsodium /usr/local/Cellar/libsoxr /usr/local/Cellar/libtasn1 /usr/local/Cellar/libtiff /usr/local/Cellar/libtool /usr/local/Cellar/libunistring /usr/local/Cellar/libusb /usr/local/Cellar/libvidstab /usr/local/Cellar/libvorbis /usr/local/Cellar/libvpx /usr/local/Cellar/libyaml /usr/local/Cellar/little-cms2 /usr/local/Cellar/lua /usr/local/Cellar/lz4 /usr/local/Cellar/lzo /usr/local/Cellar/ncurses /usr/local/Cellar/neofetch /usr/local/Cellar/nettle /usr/local/Cellar/nghttp2 /usr/local/Cellar/npth /usr/local/Cellar/oniguruma /usr/local/Cellar/opencore-amr /usr/local/Cellar/openexr /usr/local/Cellar/openjpeg /usr/local/Cellar/openssl@1.1 /usr/local/Cellar/opus /usr/local/Cellar/p11-kit /usr/local/Cellar/pcre /usr/local/Cellar/perl /usr/local/Cellar/pinentry /usr/local/Cellar/pixman /usr/local/Cellar/pkg-config /usr/local/Cellar/popt /usr/local/Cellar/python@3.9 /usr/local/Cellar/rav1e /usr/local/Cellar/readline /usr/local/Cellar/rsync /usr/local/Cellar/rtmpdump /usr/local/Cellar/rubberband /usr/local/Cellar/ruby /usr/local/Cellar/screenfetch /usr/local/Cellar/screenresolution /usr/local/Cellar/sdl2 /usr/local/Cellar/shared-mime-info /usr/local/Cellar/snappy /usr/local/Cellar/speex /usr/local/Cellar/sqlite /usr/local/Cellar/srt /usr/local/Cellar/terminal-notifier /usr/local/Cellar/tesseract /usr/local/Cellar/theora /usr/local/Cellar/unbound /usr/local/Cellar/vim /usr/local/Cellar/w3m /usr/local/Cellar/watch /usr/local/Cellar/webp /usr/local/Cellar/x264 /usr/local/Cellar/x265 /usr/local/Cellar/xmlto /usr/local/Cellar/xvid /usr/local/Cellar/xxhash /usr/local/Cellar/xz /usr/local/Cellar/zeromq /usr/local/Cellar/zstd
+ (( packages+=127 ))
+ pac 127
+ (( 127 > 0 ))
+ managers+=("$1 (${manager})")
+ manager_string+='brew, '
+ has pkgin
+ type -p pkgin
+ has nix-store
+ type -p nix-store
+ (( packages == 0 ))
+ [[ on == on ]]
+ printf -v packages '%s, ' '127 (brew)'
+ packages='127 (brew)'
+ packages='127 (brew)'
+ [[ -n '' ]]
+ [[ -n packages ]]
++ trim '127 (brew)'
++ set -f
++ set -- 127 '(brew)'
++ printf '%s\n' '127 (brew)'
++ set +f
+ output='127 (brew)'
+ [[ -n packages ]]
+ [[ -n 127(brew) ]]
+ prin Packages '127 (brew)'
++ trim Packages
++ set -f
++ set -- Packages
++ printf '%s\n' Packages
++ set +f
+ [[ -n Packages ]]
+ [[ -n 127 (brew) ]]
+ [[ -n '' ]]
+ string='Packages: 127 (brew)'
++ trim 'Packages: 127 (brew)'
++ set -f
++ set -- Packages: 127 '(brew)'
++ printf '%s\n' 'Packages: 127 (brew)'
++ set +f
+ string='Packages: 127 (brew)'
++ strip_sequences 'Packages: 127 (brew)'
++ strip='Packages: 127 (brew)'
++ strip='Packages: 127 (brew)'
++ strip='Packages: 127 (brew)'
++ strip='Packages: 127 (brew)'
++ strip='Packages: 127 (brew)'
++ strip='Packages: 127 (brew)'
++ printf '%s\n' 'Packages: 127 (brew)'
+ length='Packages: 127 (brew)'
+ length=20
+ string='Packages\e[0m\e[0m:\e[0m 127 (brew)'
+ string='\e[1mPackages\e[0m\e[0m:\e[0m 127 (brew)'
+ printf '%b\n' '\e[43C\e[1mPackages\e[0m\e[0m:\e[0m 127 (brew)\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info Shell shell
+ [[ -n shell ]]
+ subtitle=Shell
+ unset -v prin
+ get_shell
+ case $shell_path in
+ shell='zsh '
+ [[ on != on ]]
+ case ${shell_name:=${SHELL##*/}} in
++ /bin/zsh --version
+ shell+='zsh 5.7.1 (x86_64-apple-darwin19.0)'
+ shell='zsh 5.7.1 (x86_64-apple-darwin19.0)'
+ shell='zsh 5.7.1 (x86_64-apple-darwin19.0)'
+ shell='zsh 5.7.1 (x86_64-apple-darwin19.0)'
+ shell='zsh 5.7.1 (x86_64-apple-darwin19.0)'
+ shell='zsh 5.7.1 '
+ [[ -n '' ]]
+ [[ -n shell ]]
++ trim 'zsh 5.7.1 '
++ set -f
++ set -- zsh 5.7.1
++ printf '%s\n' 'zsh 5.7.1'
++ set +f
+ output='zsh 5.7.1'
+ [[ -n shell ]]
+ [[ -n zsh5.7.1 ]]
+ prin Shell 'zsh 5.7.1'
++ trim Shell
++ set -f
++ set -- Shell
++ printf '%s\n' Shell
++ set +f
+ [[ -n Shell ]]
+ [[ -n zsh 5.7.1 ]]
+ [[ -n '' ]]
+ string='Shell: zsh 5.7.1'
++ trim 'Shell: zsh 5.7.1'
++ set -f
++ set -- Shell: zsh 5.7.1
++ printf '%s\n' 'Shell: zsh 5.7.1'
++ set +f
+ string='Shell: zsh 5.7.1'
++ strip_sequences 'Shell: zsh 5.7.1'
++ strip='Shell: zsh 5.7.1'
++ strip='Shell: zsh 5.7.1'
++ strip='Shell: zsh 5.7.1'
++ strip='Shell: zsh 5.7.1'
++ strip='Shell: zsh 5.7.1'
++ strip='Shell: zsh 5.7.1'
++ printf '%s\n' 'Shell: zsh 5.7.1'
+ length='Shell: zsh 5.7.1'
+ length=16
+ string='Shell\e[0m\e[0m:\e[0m zsh 5.7.1'
+ string='\e[1mShell\e[0m\e[0m:\e[0m zsh 5.7.1'
+ printf '%b\n' '\e[43C\e[1mShell\e[0m\e[0m:\e[0m zsh 5.7.1\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info Resolution resolution
+ [[ -n resolution ]]
+ subtitle=Resolution
+ unset -v prin
+ get_resolution
+ case $os in
+ type -p screenresolution
++ screenresolution get
++ awk '/Display/ {printf $6 "Hz, "}'
+ resolution='1680x1050x32@0Hz, '
+ resolution='1680x1050 @ 0Hz, '
+ [[ -e /Library/Preferences/com.apple.windowserver.plist ]]
++ PlistBuddy -c 'Print DisplayAnyUserSets:0:0:Resolution' /Library/Preferences/com.apple.windowserver.plist
+ scale_factor=2.000000
+ [[ 1680x1050 @ 0Hz, == *\@\ \H\z* ]]
+ [[ 2 == 2 ]]
+ resolution='1680x1050@2x @ 0Hz, '
+ [[ off == \o\f\f ]]
+ resolution='1680x1050@2x @ 0Hz, '
+ resolution='1680x1050@2x @ 0Hz, '
+ [[ 1680x1050@2x @ 0Hz, == *\0\H\z* ]]
+ resolution='1680x1050@2x, '
+ resolution=1680x1050@2x
+ [[ -z 16801050@2x ]]
+ [[ -n '' ]]
+ [[ -n resolution ]]
++ trim 1680x1050@2x
++ set -f
++ set -- 1680x1050@2x
++ printf '%s\n' 1680x1050@2x
++ set +f
+ output=1680x1050@2x
+ [[ -n resolution ]]
+ [[ -n 1680x1050@2x ]]
+ prin Resolution 1680x1050@2x
++ trim Resolution
++ set -f
++ set -- Resolution
++ printf '%s\n' Resolution
++ set +f
+ [[ -n Resolution ]]
+ [[ -n 1680x1050@2x ]]
+ [[ -n '' ]]
+ string='Resolution: 1680x1050@2x'
++ trim 'Resolution: 1680x1050@2x'
++ set -f
++ set -- Resolution: 1680x1050@2x
++ printf '%s\n' 'Resolution: 1680x1050@2x'
++ set +f
+ string='Resolution: 1680x1050@2x'
++ strip_sequences 'Resolution: 1680x1050@2x'
++ strip='Resolution: 1680x1050@2x'
++ strip='Resolution: 1680x1050@2x'
++ strip='Resolution: 1680x1050@2x'
++ strip='Resolution: 1680x1050@2x'
++ strip='Resolution: 1680x1050@2x'
++ strip='Resolution: 1680x1050@2x'
++ printf '%s\n' 'Resolution: 1680x1050@2x'
+ length='Resolution: 1680x1050@2x'
+ length=24
+ string='Resolution\e[0m\e[0m:\e[0m 1680x1050@2x'
+ string='\e[1mResolution\e[0m\e[0m:\e[0m 1680x1050@2x'
+ printf '%b\n' '\e[43C\e[1mResolution\e[0m\e[0m:\e[0m 1680x1050@2x\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info DE de
+ [[ -n de ]]
+ subtitle=DE
+ unset -v prin
+ get_de
+ (( de_run == 1 ))
+ case $os in
+ de=Aqua
+ [[ -n '' ]]
+ case $de in
+ (( 0 >= 4 ))
+ [[ on == on ]]
+ [[ -n Aqua ]]
+ case $de in
+ de_ver=
+ de_ver=
+ de_ver=
+ de_ver=
+ de_ver=
+ de_ver=
+ de_ver=
+ de='Aqua '
+ de_run=1
+ [[ -n '' ]]
+ [[ -n de ]]
++ trim 'Aqua '
++ set -f
++ set -- Aqua
++ printf '%s\n' Aqua
++ set +f
+ output=Aqua
+ [[ -n de ]]
+ [[ -n Aqua ]]
+ prin DE Aqua
++ trim DE
++ set -f
++ set -- DE
++ printf '%s\n' DE
++ set +f
+ [[ -n DE ]]
+ [[ -n Aqua ]]
+ [[ -n '' ]]
+ string='DE: Aqua'
++ trim 'DE: Aqua'
++ set -f
++ set -- DE: Aqua
++ printf '%s\n' 'DE: Aqua'
++ set +f
+ string='DE: Aqua'
++ strip_sequences 'DE: Aqua'
++ strip='DE: Aqua'
++ strip='DE: Aqua'
++ strip='DE: Aqua'
++ strip='DE: Aqua'
++ strip='DE: Aqua'
++ strip='DE: Aqua'
++ printf '%s\n' 'DE: Aqua'
+ length='DE: Aqua'
+ length=8
+ string='DE\e[0m\e[0m:\e[0m Aqua'
+ string='\e[1mDE\e[0m\e[0m:\e[0m Aqua'
+ printf '%b\n' '\e[43C\e[1mDE\e[0m\e[0m:\e[0m Aqua\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info WM wm
+ [[ -n wm ]]
+ subtitle=WM
+ unset -v prin
+ get_wm
+ (( wm_run == 1 ))
+ case $kernel_name in
+ ps_flags=(-e)
+ [[ -n '' ]]
+ [[ -n '' ]]
+ case $os in
++ ps -e
++ grep -o -e '[S]pectacle' -e '[A]methyst' -e '[k]wm' -e '[c]hun[k]wm' -e '[y]abai' -e '[R]ectangle'
+ ps_line=
+ case $ps_line in
+ wm='Quartz Compositor'
+ [[ Quartz Compositor == *WINDOWMAKER* ]]
+ [[ Quartz Compositor == *GNOME*Shell* ]]
+ wm_run=1
+ [[ -n '' ]]
+ [[ -n wm ]]
++ trim 'Quartz Compositor'
++ set -f
++ set -- Quartz Compositor
++ printf '%s\n' 'Quartz Compositor'
++ set +f
+ output='Quartz Compositor'
+ [[ -n wm ]]
+ [[ -n QuartzCompositor ]]
+ prin WM 'Quartz Compositor'
++ trim WM
++ set -f
++ set -- WM
++ printf '%s\n' WM
++ set +f
+ [[ -n WM ]]
+ [[ -n Quartz Compositor ]]
+ [[ -n '' ]]
+ string='WM: Quartz Compositor'
++ trim 'WM: Quartz Compositor'
++ set -f
++ set -- WM: Quartz Compositor
++ printf '%s\n' 'WM: Quartz Compositor'
++ set +f
+ string='WM: Quartz Compositor'
++ strip_sequences 'WM: Quartz Compositor'
++ strip='WM: Quartz Compositor'
++ strip='WM: Quartz Compositor'
++ strip='WM: Quartz Compositor'
++ strip='WM: Quartz Compositor'
++ strip='WM: Quartz Compositor'
++ strip='WM: Quartz Compositor'
++ printf '%s\n' 'WM: Quartz Compositor'
+ length='WM: Quartz Compositor'
+ length=21
+ string='WM\e[0m\e[0m:\e[0m Quartz Compositor'
+ string='\e[1mWM\e[0m\e[0m:\e[0m Quartz Compositor'
+ printf '%b\n' '\e[43C\e[1mWM\e[0m\e[0m:\e[0m Quartz Compositor\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info 'WM Theme' wm_theme
+ [[ -n wm_theme ]]
+ subtitle='WM Theme'
+ unset -v prin
+ get_wm_theme
+ (( wm_run != 1 ))
+ (( de_run != 1 ))
+ case $wm in
+ global_preferences=/Users/njenan/Library/Preferences/.GlobalPreferences.plist
++ PlistBuddy -c 'Print AppleInterfaceStyle' /Users/njenan/Library/Preferences/.GlobalPreferences.plist
+ wm_theme=Dark
++ PlistBuddy -c 'Print AppleAccentColor' /Users/njenan/Library/Preferences/.GlobalPreferences.plist
Print: Entry, "AppleAccentColor", Does Not Exist
+ wm_theme_color=
+ [[ -n Dark ]]
+ case $wm_theme_color in
+ wm_theme_color=Blue
+ wm_theme='Blue (Dark)'
++ trim_quotes 'Blue (Dark)'
++ trim_output='Blue (Dark)'
++ trim_output='Blue (Dark)'
++ printf %s 'Blue (Dark)'
+ wm_theme='Blue (Dark)'
+ [[ -n '' ]]
+ [[ -n wm_theme ]]
++ trim 'Blue (Dark)'
++ set -f
++ set -- Blue '(Dark)'
++ printf '%s\n' 'Blue (Dark)'
++ set +f
+ output='Blue (Dark)'
+ [[ -n wm_theme ]]
+ [[ -n Blue(Dark) ]]
+ prin 'WM Theme' 'Blue (Dark)'
++ trim 'WM Theme'
++ set -f
++ set -- WM Theme
++ printf '%s\n' 'WM Theme'
++ set +f
+ [[ -n WM Theme ]]
+ [[ -n Blue (Dark) ]]
+ [[ -n '' ]]
+ string='WM Theme: Blue (Dark)'
++ trim 'WM Theme: Blue (Dark)'
++ set -f
++ set -- WM Theme: Blue '(Dark)'
++ printf '%s\n' 'WM Theme: Blue (Dark)'
++ set +f
+ string='WM Theme: Blue (Dark)'
++ strip_sequences 'WM Theme: Blue (Dark)'
++ strip='WM Theme: Blue (Dark)'
++ strip='WM Theme: Blue (Dark)'
++ strip='WM Theme: Blue (Dark)'
++ strip='WM Theme: Blue (Dark)'
++ strip='WM Theme: Blue (Dark)'
++ strip='WM Theme: Blue (Dark)'
++ printf '%s\n' 'WM Theme: Blue (Dark)'
+ length='WM Theme: Blue (Dark)'
+ length=21
+ string='WM Theme\e[0m\e[0m:\e[0m Blue (Dark)'
+ string='\e[1mWM Theme\e[0m\e[0m:\e[0m Blue (Dark)'
+ printf '%b\n' '\e[43C\e[1mWM Theme\e[0m\e[0m:\e[0m Blue (Dark)\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info Theme theme
+ [[ -n theme ]]
+ subtitle=Theme
+ unset -v prin
+ get_theme
+ name=gtk-theme-name
+ gsettings=gtk-theme
+ gconf=gtk_theme
+ xfconf=/Net/ThemeName
+ kde=Name
+ get_style
+ unset gtk2_theme gtk3_theme theme path
+ [[ -n '' ]]
+ [[ -n '' ]]
+ [[ -n theme ]]
++ trim ''
++ set -f
++ set --
++ printf '%s\n' ''
++ set +f
+ output=
+ [[ -n theme ]]
+ [[ -n '' ]]
+ [[ -n '' ]]
+ err 'Info: Couldn'\''t detect Theme.'
++ color 1
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 1
+ err+='[!]\e[0m Info: Couldn'\''t detect Theme.
'
+ unset -v subtitle
+ info Icons icons
+ [[ -n icons ]]
+ subtitle=Icons
+ unset -v prin
+ get_icons
+ name=gtk-icon-theme-name
+ gsettings=icon-theme
+ gconf=icon_theme
+ xfconf=/Net/IconThemeName
+ kde=Theme
+ get_style
+ unset gtk2_theme gtk3_theme theme path
+ [[ -n '' ]]
+ icons=
+ [[ -n '' ]]
+ [[ -n icons ]]
++ trim ''
++ set -f
++ set --
++ printf '%s\n' ''
++ set +f
+ output=
+ [[ -n icons ]]
+ [[ -n '' ]]
+ [[ -n '' ]]
+ err 'Info: Couldn'\''t detect Icons.'
++ color 1
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 1
+ err+='[!]\e[0m Info: Couldn'\''t detect Icons.
'
+ unset -v subtitle
+ info Terminal term
+ [[ -n term ]]
+ subtitle=Terminal
+ unset -v prin
+ get_term
+ (( term_run == 1 ))
+ case $TERM_PROGRAM in
+ term=iTerm2
+ [[ xterm-256color == \t\w\5\2 ]]
+ [[ xterm-256color == \t\w\1\0\0 ]]
+ [[ -n '' ]]
+ [[ -n '' ]]
+ [[ -z iTerm2 ]]
+ term_run=1
+ [[ -n '' ]]
+ [[ -n term ]]
++ trim iTerm2
++ set -f
++ set -- iTerm2
++ printf '%s\n' iTerm2
++ set +f
+ output=iTerm2
+ [[ -n term ]]
+ [[ -n iTerm2 ]]
+ prin Terminal iTerm2
++ trim Terminal
++ set -f
++ set -- Terminal
++ printf '%s\n' Terminal
++ set +f
+ [[ -n Terminal ]]
+ [[ -n iTerm2 ]]
+ [[ -n '' ]]
+ string='Terminal: iTerm2'
++ trim 'Terminal: iTerm2'
++ set -f
++ set -- Terminal: iTerm2
++ printf '%s\n' 'Terminal: iTerm2'
++ set +f
+ string='Terminal: iTerm2'
++ strip_sequences 'Terminal: iTerm2'
++ strip='Terminal: iTerm2'
++ strip='Terminal: iTerm2'
++ strip='Terminal: iTerm2'
++ strip='Terminal: iTerm2'
++ strip='Terminal: iTerm2'
++ strip='Terminal: iTerm2'
++ printf '%s\n' 'Terminal: iTerm2'
+ length='Terminal: iTerm2'
+ length=16
+ string='Terminal\e[0m\e[0m:\e[0m iTerm2'
+ string='\e[1mTerminal\e[0m\e[0m:\e[0m iTerm2'
+ printf '%b\n' '\e[43C\e[1mTerminal\e[0m\e[0m:\e[0m iTerm2\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info 'Terminal Font' term_font
+ [[ -n term_font ]]
+ subtitle='Terminal Font'
+ unset -v prin
+ get_term_font
+ (( term_run != 1 ))
+ case $term in
+ local current_profile_name profiles_count profile_name diff_font
++ osascript
+ current_profile_name=Default
+ font_file=/Users/njenan/Library/Preferences/com.googlecode.iterm2.plist
++ PlistBuddy -c 'Print '\'':New Bookmarks:'\''' /Users/njenan/Library/Preferences/com.googlecode.iterm2.plist
++ grep -w -c Guid
+ profiles_count=1
+ (( i=0 ))
+ (( i<profiles_count ))
++ PlistBuddy -c 'Print '\'':New Bookmarks:0:Name:'\''' /Users/njenan/Library/Preferences/com.googlecode.iterm2.plist
+ profile_name=Default
+ [[ Default == \D\e\f\a\u\l\t ]]
++ PlistBuddy -c 'Print '\'':New Bookmarks:0:Normal Font:'\''' /Users/njenan/Library/Preferences/com.googlecode.iterm2.plist
+ term_font='Monaco 12'
++ PlistBuddy -c 'Print '\'':New Bookmarks:0:Use Non-ASCII Font:'\''' /Users/njenan/Library/Preferences/com.googlecode.iterm2.plist
+ diff_font=false
+ [[ false == \t\r\u\e ]]
+ (( i++ ))
+ (( i<profiles_count ))
+ [[ -n '' ]]
+ [[ -n term_font ]]
++ trim 'Monaco 12'
++ set -f
++ set -- Monaco 12
++ printf '%s\n' 'Monaco 12'
++ set +f
+ output='Monaco 12'
+ [[ -n term_font ]]
+ [[ -n Monaco12 ]]
+ prin 'Terminal Font' 'Monaco 12'
++ trim 'Terminal Font'
++ set -f
++ set -- Terminal Font
++ printf '%s\n' 'Terminal Font'
++ set +f
+ [[ -n Terminal Font ]]
+ [[ -n Monaco 12 ]]
+ [[ -n '' ]]
+ string='Terminal Font: Monaco 12'
++ trim 'Terminal Font: Monaco 12'
++ set -f
++ set -- Terminal Font: Monaco 12
++ printf '%s\n' 'Terminal Font: Monaco 12'
++ set +f
+ string='Terminal Font: Monaco 12'
++ strip_sequences 'Terminal Font: Monaco 12'
++ strip='Terminal Font: Monaco 12'
++ strip='Terminal Font: Monaco 12'
++ strip='Terminal Font: Monaco 12'
++ strip='Terminal Font: Monaco 12'
++ strip='Terminal Font: Monaco 12'
++ strip='Terminal Font: Monaco 12'
++ printf '%s\n' 'Terminal Font: Monaco 12'
+ length='Terminal Font: Monaco 12'
+ length=24
+ string='Terminal Font\e[0m\e[0m:\e[0m Monaco 12'
+ string='\e[1mTerminal Font\e[0m\e[0m:\e[0m Monaco 12'
+ printf '%b\n' '\e[43C\e[1mTerminal Font\e[0m\e[0m:\e[0m Monaco 12\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info CPU cpu
+ [[ -n cpu ]]
+ subtitle=CPU
+ unset -v prin
+ get_cpu
+ case $os in
++ sysctl -n machdep.cpu.brand_string
+ cpu='Intel(R) Core(TM) i7-4770HQ CPU @ 2.20GHz'
+ case $cpu_cores in
++ sysctl -n hw.logicalcpu_max
+ cores=8
+ cpu='Intel(R) Core i7-4770HQ CPU @ 2.20GHz'
+ cpu='Intel(R) Core i7-4770HQ CPU @ 2.20GHz'
+ cpu='Intel Core i7-4770HQ CPU @ 2.20GHz'
+ cpu='Intel Core i7-4770HQ CPU @ 2.20GHz'
+ cpu='Intel Core i7-4770HQ @ 2.20GHz'
+ cpu='Intel Core i7-4770HQ @ 2.20GHz'
+ cpu='Intel Core i7-4770HQ @ 2.20GHz'
+ cpu='Intel Core i7-4770HQ @ 2.20GHz'
+ cpu='Intel Core i7-4770HQ @ 2.20GHz'
+ cpu='Intel Core i7-4770HQ @ 2.20GHz'
+ cpu='Intel Core i7-4770HQ @ 2.20GHz'
+ cpu='Intel Core i7-4770HQ @ 2.20GHz'
+ cpu='Intel Core i7-4770HQ @ 2.20GHz'
+ cpu='Intel i7-4770HQ @ 2.20GHz'
+ cpu='Intel i7-4770HQ @ 2.20GHz'
+ cpu='Intel i7-4770HQ @ 2.20GHz'
+ cpu='Intel i7-4770HQ @ 2.20GHz'
+ cpu='Intel i7-4770HQ @ 2.20GHz'
+ cpu='Intel i7-4770HQ @ 2.20GHz'
+ cpu='Intel i7-4770HQ @ 2.20GHz'
+ cpu='Intel i7-4770HQ @ 2.20GHz'
+ cores=8
+ speed=
+ [[ on == \o\f\f ]]
+ [[ logical != \o\f\f ]]
+ [[ -n 8 ]]
+ case $os in
+ cpu='Intel i7-4770HQ (8) @ 2.20GHz'
+ [[ on != \o\f\f ]]
+ [[ -n '' ]]
+ [[ off != \o\f\f ]]
+ [[ -n '' ]]
+ [[ -n cpu ]]
++ trim 'Intel i7-4770HQ (8) @ 2.20GHz'
++ set -f
++ set -- Intel i7-4770HQ '(8)' @ 2.20GHz
++ printf '%s\n' 'Intel i7-4770HQ (8) @ 2.20GHz'
++ set +f
+ output='Intel i7-4770HQ (8) @ 2.20GHz'
+ [[ -n cpu ]]
+ [[ -n Inteli7-4770HQ(8)@2.20GHz ]]
+ prin CPU 'Intel i7-4770HQ (8) @ 2.20GHz'
++ trim CPU
++ set -f
++ set -- CPU
++ printf '%s\n' CPU
++ set +f
+ [[ -n CPU ]]
+ [[ -n Intel i7-4770HQ (8) @ 2.20GHz ]]
+ [[ -n '' ]]
+ string='CPU: Intel i7-4770HQ (8) @ 2.20GHz'
++ trim 'CPU: Intel i7-4770HQ (8) @ 2.20GHz'
++ set -f
++ set -- CPU: Intel i7-4770HQ '(8)' @ 2.20GHz
++ printf '%s\n' 'CPU: Intel i7-4770HQ (8) @ 2.20GHz'
++ set +f
+ string='CPU: Intel i7-4770HQ (8) @ 2.20GHz'
++ strip_sequences 'CPU: Intel i7-4770HQ (8) @ 2.20GHz'
++ strip='CPU: Intel i7-4770HQ (8) @ 2.20GHz'
++ strip='CPU: Intel i7-4770HQ (8) @ 2.20GHz'
++ strip='CPU: Intel i7-4770HQ (8) @ 2.20GHz'
++ strip='CPU: Intel i7-4770HQ (8) @ 2.20GHz'
++ strip='CPU: Intel i7-4770HQ (8) @ 2.20GHz'
++ strip='CPU: Intel i7-4770HQ (8) @ 2.20GHz'
++ printf '%s\n' 'CPU: Intel i7-4770HQ (8) @ 2.20GHz'
+ length='CPU: Intel i7-4770HQ (8) @ 2.20GHz'
+ length=34
+ string='CPU\e[0m\e[0m:\e[0m Intel i7-4770HQ (8) @ 2.20GHz'
+ string='\e[1mCPU\e[0m\e[0m:\e[0m Intel i7-4770HQ (8) @ 2.20GHz'
+ printf '%b\n' '\e[43C\e[1mCPU\e[0m\e[0m:\e[0m Intel i7-4770HQ (8) @ 2.20GHz\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info GPU gpu
+ [[ -n gpu ]]
+ subtitle=GPU
+ unset -v prin
+ get_gpu
+ case $os in
+ [[ -f /Library/Caches/neofetch/gpu ]]
+ source /Library/Caches/neofetch/gpu
++ gpu='Intel Iris Pro'
+ [[ on == \o\f\f ]]
+ [[ -n '' ]]
+ [[ -n gpu ]]
++ trim 'Intel Iris Pro'
++ set -f
++ set -- Intel Iris Pro
++ printf '%s\n' 'Intel Iris Pro'
++ set +f
+ output='Intel Iris Pro'
+ [[ -n gpu ]]
+ [[ -n IntelIrisPro ]]
+ prin GPU 'Intel Iris Pro'
++ trim GPU
++ set -f
++ set -- GPU
++ printf '%s\n' GPU
++ set +f
+ [[ -n GPU ]]
+ [[ -n Intel Iris Pro ]]
+ [[ -n '' ]]
+ string='GPU: Intel Iris Pro'
++ trim 'GPU: Intel Iris Pro'
++ set -f
++ set -- GPU: Intel Iris Pro
++ printf '%s\n' 'GPU: Intel Iris Pro'
++ set +f
+ string='GPU: Intel Iris Pro'
++ strip_sequences 'GPU: Intel Iris Pro'
++ strip='GPU: Intel Iris Pro'
++ strip='GPU: Intel Iris Pro'
++ strip='GPU: Intel Iris Pro'
++ strip='GPU: Intel Iris Pro'
++ strip='GPU: Intel Iris Pro'
++ strip='GPU: Intel Iris Pro'
++ printf '%s\n' 'GPU: Intel Iris Pro'
+ length='GPU: Intel Iris Pro'
+ length=19
+ string='GPU\e[0m\e[0m:\e[0m Intel Iris Pro'
+ string='\e[1mGPU\e[0m\e[0m:\e[0m Intel Iris Pro'
+ printf '%b\n' '\e[43C\e[1mGPU\e[0m\e[0m:\e[0m Intel Iris Pro\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info Memory memory
+ [[ -n memory ]]
+ subtitle=Memory
+ unset -v prin
+ get_memory
+ case $os in
++ sysctl -n hw.memsize
+ mem_total=16384
++ vm_stat
++ awk '/ wired/ { print $4 }'
+ mem_wired=740086.
++ vm_stat
++ awk '/ active/ { printf $3 }'
+ mem_active=1492781.
++ vm_stat
++ awk '/ occupied/ { printf $5 }'
+ mem_compressed=318774.
+ mem_compressed=318774.
+ mem_used=9967
+ [[ off == \o\n ]]
+ case $memory_unit in
+ memory='9967MiB / 16384MiB '
+ case $memory_display in
+ [[ -n '' ]]
+ [[ -n memory ]]
++ trim '9967MiB / 16384MiB '
++ set -f
++ set -- 9967MiB / 16384MiB
++ printf '%s\n' '9967MiB / 16384MiB'
++ set +f
+ output='9967MiB / 16384MiB'
+ [[ -n memory ]]
+ [[ -n 9967MiB/16384MiB ]]
+ prin Memory '9967MiB / 16384MiB'
++ trim Memory
++ set -f
++ set -- Memory
++ printf '%s\n' Memory
++ set +f
+ [[ -n Memory ]]
+ [[ -n 9967MiB / 16384MiB ]]
+ [[ -n '' ]]
+ string='Memory: 9967MiB / 16384MiB'
++ trim 'Memory: 9967MiB / 16384MiB'
++ set -f
++ set -- Memory: 9967MiB / 16384MiB
++ printf '%s\n' 'Memory: 9967MiB / 16384MiB'
++ set +f
+ string='Memory: 9967MiB / 16384MiB'
++ strip_sequences 'Memory: 9967MiB / 16384MiB'
++ strip='Memory: 9967MiB / 16384MiB'
++ strip='Memory: 9967MiB / 16384MiB'
++ strip='Memory: 9967MiB / 16384MiB'
++ strip='Memory: 9967MiB / 16384MiB'
++ strip='Memory: 9967MiB / 16384MiB'
++ strip='Memory: 9967MiB / 16384MiB'
++ printf '%s\n' 'Memory: 9967MiB / 16384MiB'
+ length='Memory: 9967MiB / 16384MiB'
+ length=26
+ string='Memory\e[0m\e[0m:\e[0m 9967MiB / 16384MiB'
+ string='\e[1mMemory\e[0m\e[0m:\e[0m 9967MiB / 16384MiB'
+ printf '%b\n' '\e[43C\e[1mMemory\e[0m\e[0m:\e[0m 9967MiB / 16384MiB\e[0m '
+ (( ++info_height ))
+ prin=1
+ unset -v subtitle
+ info cols
+ [[ -n '' ]]
+ unset -v prin
+ get_cols
+ local blocks blocks2 cols
+ [[ on == \o\n ]]
+ printf -v block_width %3s
+ (( block_range[0] ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks '%b\e[3%bm\e[4%bm%b' '' 0 0 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks '%b\e[3%bm\e[4%bm%b' ' ' 1 1 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks '%b\e[3%bm\e[4%bm%b' '  ' 2 2 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks '%b\e[3%bm\e[4%bm%b' '   ' 3 3 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks '%b\e[3%bm\e[4%bm%b' '    ' 4 4 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks '%b\e[3%bm\e[4%bm%b' '     ' 5 5 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks '%b\e[3%bm\e[4%bm%b' '      ' 6 6 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks '%b\e[3%bm\e[4%bm%b' '       ' 7 7 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks2 '%b\e[38;5;%bm\e[48;5;%bm%b' '' 8 8 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks2 '%b\e[38;5;%bm\e[48;5;%bm%b' ' ' 9 9 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks2 '%b\e[38;5;%bm\e[48;5;%bm%b' '  ' 10 10 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks2 '%b\e[38;5;%bm\e[48;5;%bm%b' '   ' 11 11 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks2 '%b\e[38;5;%bm\e[48;5;%bm%b' '    ' 12 12 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks2 '%b\e[38;5;%bm\e[48;5;%bm%b' '     ' 13 13 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks2 '%b\e[38;5;%bm\e[48;5;%bm%b' '      ' 14 14 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ case ${block_range[0]} in
+ printf -v blocks2 '%b\e[38;5;%bm\e[48;5;%bm%b' '       ' 15 15 ' '
+ (( block_range[0]++ ))
+ (( block_range[0]<=block_range[1] ))
+ printf -v block_spaces %1s
+ [[ -n         ]]
+ cols+='        nl'
+ [[ -n         ]]
+ cols+='        nl'
+ cols='        nl        '
+ cols='        
        '
+ (( info_height+=block_range[1]>7?block_height+3:block_height+2 ))
+ case $col_offset in
+ printf '\n\e[%bC%b\n\n' 43 '        
        '
+ unset -v blocks blocks2 cols
+ prin=1
+ [[ -n 1 ]]
+ return
+ dynamic_prompt
+ [[ iterm2 == \o\f\f ]]
+ [[ iterm2 != \a\s\c\i\i ]]
+ (( lines=(height + yoffset) / font_height + 1 ))
+ [[ iterm2 == \w\3\m ]]
+ (( lines=lines>info_height?lines-info_height+1:1 ))
+ printf -v nlines %1s
+ printf %b '\n'
+ [[ iterm2 == *w3m* ]]
+ err 'Neofetch command: /usr/local/bin/neofetch -vv'
++ color 1
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 1
+ err+='[!]\e[0m Neofetch command: /usr/local/bin/neofetch -vv
'
+ err 'Neofetch version: 7.1.0'
++ color 1
++ case $1 in
++ printf '%b\e[3%sm' '\e[0m' 1
+ err+='[!]\e[0m Neofetch version: 7.1.0
'
+ [[ on == on ]]
+ printf %b '[!]\e[0m Config: Sourced user config. (/Users/njenan/.config/neofetch/config.conf)
[!]\e[0m Image: Using image '\''/Users/njenan/cookies.jpg'\''
[!]\e[0m Info: Couldn'\''t detect Theme.
[!]\e[0m Info: Couldn'\''t detect Icons.
[!]\e[0m Neofetch command: /usr/local/bin/neofetch -vv
[!]\e[0m Neofetch version: 7.1.0
'
[!] Config: Sourced user config. (/Users/njenan/.config/neofetch/config.conf)
[!] Image: Using image '/Users/njenan/cookies.jpg'
[!] Info: Couldn't detect Theme.
[!] Info: Couldn't detect Icons.
[!] Neofetch command: /usr/local/bin/neofetch -vv
[!] Neofetch version: 7.1.0
+ [[ off == on ]]
+ return 0
+ printf '\e[?25h\e[?7h'
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