44 KiB
Phundrak’s executable scripts
- Presentation
- 4chandl
- Askpass
- Backup
- ConnectWifi
- Cppnew
- Cnew
- Dart Language Server
- Dmenu
- Emoji picker
- Polybar-launch
- Rofi-mount
- Rofi-pass
- Rofi-umount
- Starwars
- UpdateFlutter
- Wacom setup
- Yadm
Presentation
This file will present all the executable scripts I wrote. It is also their original source code, all the following code snippets are exported and tangled from this file to the actual executables.
Please do not forget to run the following before tangling files from this file to make sure the tangled files will be executables.
(defun phundrak/make-tangled-files-executable ()
(set-file-modes (buffer-file-name) #o755))
(add-hook 'org-babel-post-tangle-hook 'phundrak/make-tangled-files-executable)
4chandl
Usage: 4chandl [ URL TO THREAD ]
I made this small script to download the attached files of 4chan threads. First of all, let’s declare it as a fish script.
#!/usr/bin/env fish
Now, let’s check if any arguments were passed to the executable. If none were passed, the script should be aborted.
if ! count $argv > /dev/null
echo 'No URL specified! Give the URL to thread as the only argument.'
exit 1
end
Now, let’s store the regex we use to get the link to the attached files.
set regex_4cdn '\/\/is2\.4chan\.org\/[a-z]+\/[A-Za-z0-9]+\.[A-Za-z]{3,4}'
We’ll use a thread counter to get a visual indication on how the download is going.
set thread_counter 1
Now, we will use each of the arguments passed as a URL to download the files from.
for url in $argv
As a visual indicator, let’s get the amount of elements we are going to download from the current thread and print it.
set file_total (curl -ks $url | grep -oE $regex_4cdn | uniq | wc -l)
echo total files to download in current thread: $file_total
Let’s set a file counter so we can visualize the download progress.
set file_counter 1
Now, let’s download each file from the current thread.
for image_url in (curl -k -s $url | grep -Eo $regex_4cdn | uniq | sed 's/^/https:/')
echo -n Downloading image $counter of $total...
wget --no-check-certificate -q -nc $image_url
echo ' Done (thread: $thread_counter/thread_total\tfile: $file_counter/file_total)'
set file_counter (math $file_counter + 1)
end
Let’s increment the thread counter.
set thread_counter (math $thread_counter + 1)
Let’s now close the for loop.
end
Askpass
Askpass is a simple script that invokes rofi
as a way to get from a GUI the
user’s sudo password. It is inspired by this original tool, rewritten in fish
and with rofi support instead of dmenu. As you can see, this is a oneliner if
we ignore the initial shebang. This executable is pointed at by the
#!/usr/bin/env fish
rofi -dmenu -font 'DejaVu Sans 10' -password -no-fixed-num-lines \
-p (printf $argv[1] | sed s/://)
Backup
backup
is a very simple, oneliner script that will create a local copy of a
file and add the date at which it was copied in the filename. You can see its
source code here:
#!/usr/bin/env fish
cp $argv[1] $argv[1].bak.(date +"%Y%m%d%H%M%S")
ConnectWifi
connect-wifi
is a small utility tool that allows the user to connect to
available WiFi networks. The first thing to do is to select the WiFi we want
to connect to. We’ll use the nmcli c s
command to get the list of the
available networks, and we’ll chose one with rofi
.
#!/usr/bin/env fish
set SELECTEDWIFI (nmcli d w l | egrep -o '([0-9A-F]{2}:){5}[0-9A-F]{2}\s*(.*)Infra' | egrep -o '\s+(.*)\s+' | awk '{$1=$1}1' | rofi -dmenu -p "Select your WiFi network")
Now, if a network was selected, let’s attempt to connect to it. Otherwise, let’s just send a notification no network was selected.
if test -z $SELECTEDWIFI
notify-send "No WiFi network selected" -u low && exit
end
nmcli c u $SELECTEDWIFI
Cppnew
cppnew
is a small utility that helps you create a new C++ project. Several
templates are available, the default one using CMake, and three others that
are a bit more advances, based on:
There is also a default Doxygen file included for your documentation, ready to
go. I even made it so that you can execute it as an executable file, like
./doc/Doxyfile
from the project root.
The choice is given to the user which of them to use with options that will be
given to cppnew
.
#!/usr/bin/env fish
First of all, if no arguments were passed, return an error.
if ! count $argv >/dev/null
echo "Missing argument: PROJECT" && return -1
end
Now, let’s set a couple of variables which will prove useful later on when trying to set up our project.
Cnew
cnew
is a small utility script similar to but simpler than cppnew that
creates a CMake template C project from the template that already exists in
~/dev/templateC. This script is a fish script, so let’s insert the shebang.
#!/usr/bin/env fish
If no argument was passed, display an error message and exit.
if ! count $argv > /dev/null
echo "Missing argument: PROJECT" && return -1
end
Pass the first argument to a switch statement.
switch "$argv[1]"
If the argument is -h
or --help
, then display the help message and exit
the script normally.
case -h --help
man ~/dev/fishfunctions/cnew.man
exit 0
Else, the argument is the name of the project the user wants to create.
case '*'
set -g project_name $argv[1]
Let’s close the switch statement.
end
Now, let’s copy the template where the user is executing cnew
from, give it
the name of the project and move to the project.
cp -r ~/dev/templateC $argv[1]
cd $argv[1]
The default files have a placeholder for the name of the project. Let’s replace these placeholders with the project’s name.
sed -i "s/PROJECTNAME/$argv[1]/g" CMakeLists.txt
sed -i "s/PROJECTNAME/$argv[1]/g" README.org
sed -i "s/CPROJECTNAME/$argv[1]/g" doc/Doxyfile
Now, let’s create a git repository and initialize it.
git init
git add .
git commit -m "initial commit"
And we’re done!
Dart Language Server
Spacemacs' recommendations on how to use Dart with LSP is outdated, since
dart_language_server
is obsolete. As recommended by the repo owner, we
should launch instead the following code:
#!/usr/bin/env fish
/usr/bin/dart $DART_SDK/snapshots/analysis_server.dart.snapshot --lsp
So, instead of using the obsolete executable, instead we will be calling the analysis server as requested.
Dmenu
I wrote this very simple script in order to replace dmenu
with rofi’s
emulation of dmenu, since I prefer rofi’s appearance. It basically calls
rofi’s dmenu emulation with the arguments initially passed to dmenu.
#!/usr/bin/env fish
rofi -dmenu $argv
Emoji picker
The emoji picker is a simple fish script that uses rofi and
~/.config/emoji.txt to provide a small, local search for emojis. Once the
emoji is selected, it is copied to the clipboard using xclipboard
.
#!/usr/bin/env fish
grep -v "#" ~/.config/emoji.txt | rofi -dmenu -p "Select emoji" -i | awk '{print $1}' | tr -d '\n' | xclip -selection clipboard
Also, let’s send a notification telling the user the emoji has been copied!
set emoji (xclip -o -selection clipboard | tr -d '\n')
test -z "$emoji" && notify-send "No emoji copied" -u low && exit
set -a emoji "copied to clipboard"
pgrep -x dunst >/dev/null && notify-send -u low $emoji
It is inspired from this video from Luke Smith, rewritten in Fish.
Polybar-launch
This scripts allows the user to kill polybar and relaunch it, or to simply launch it if polybar isn’t launched yet. This script is a bash script, so let’s declare its shebang.
#!/usr/bin/env bash
First thing to do is kill all polybar processes.
killall -q polybar
Now we have to wait untill all polybar processes have been shut down.
while pgrep -u $UID -x polybar >/dev/null; do sleep 1; done
Now that our system isn’t running polybar anymore, we’ll launch it again on all of our screens. By the way, I have two bars, so I’ll have to lauch them both.
if type "xrandr"; then
for m in $(xrandr --query | grep " connected" | cut -d" " -f1); do
MONITOR=$m polybar --reload top &
MONITOR=$m polybar --reload bottom &
done
else
polybar --reload top &
polybar --reload bottom &
fi
And we’re done! Let’s just launch a notification polybar has been relaunched.
notify-send "Polybar restarted!" -a "polybar-launch"
Rofi-mount
rofimount
is a script inspired by this one, based on dmenu, which
interactively asks the user what to mount, and where to mount it. What I did
was replace dmenu with rofi, and fix a couple of bugs I encountered in the
original script. For the record, this is a fish script. Let’s declare our
shebang.
#!/usr/bin/env fish
Get the mountable elements
begin
What the script does first is detect everything that can be mounted. Between
a begin
and end
, let’s set LFS
as a local variable. This si in order to
get sane variables in the current block.
set -l LFS
Now, let’s detect the amount of mountable Android filesystems, and if any are detected, let’s read them into a global variable.
set -l a (math (jmtpfs -l | wc -l) - 2)
test $a -ge 0 && jmtpfs -l 2> /dev/null | tail -n $a | read -zg anddrives
We’ll do the same for external and internal drives and partitions that can be mounted here.
lsblk -rpo "name,type,size,mountpoint" | \
awk '$2=="part"&&$4==""{printf "%s (%s)\n",$1,$3}' | \
read -zg usbdrives
Finally, we look for any CD drive that could be mounted on our device.
blkid /dev/sr0 | awk '{print $1}' | sed 's/://' | read -z cddrives
And that’s the end of our first block!
end
Alright, we’ll save what kind on drives we can mount in a temporary file
called /tmp/drives
. We’ll make sure it’s blank by erasing it then creating
it again with touch
, like so. The -f
flag on rm
is here so we get no
error if we try to delete a file that doesn’t exist (yet).
set -g TMPDRIVES /tmp/drives
rm -f $TMPDRIVES
touch $TMPDRIVES
Now, let’s write what type of drives we can mount in this temporary file.
test -n "$usbdrives" && echo "USB" >> $TMPDRIVES
test -n "$cddrives" && echo "CD" >> $TMPDRIVES
test -n "$anddrives" && echo "Android" >> $TMPDRIVES
Now, we want to declare where to look for mount directories. For now, we’ll
only look in /media
, but you can add more if you wish.
set -g basemount /media
Get the mount point
Now, let’s declare a function that will allow us to chose the drive we want to mount.
function getmount
First, we want to get our mount point. We’ll run a find
command on each of
the directories listed in $basemount
to look for folders on which our drive
could be mounted. This list will be passed to rofi from which we will chose
our mount point.
set -g mp (for d in $basemount
find $d -maxdepth 5 -type d
end | rofi -dmenu -i -p 'Type in mount point.')
We should verify that something has been actually selected, otherwise we should abort the script.
if test -z $mp || test $mp = ""
return 1
end
Now, if the selected mount point does not exist, we’ll ask the user whether the directory should be created. If no, the script will abort. If yes, an attempt will be made at creating the directory as the user; if that fails, a new attempt will be made as sudo.
if test ! -d $mp
switch (printf "No\\nYes" | rofi -dmenu -i -p "$mp does not exist. Create it?")
case 'Yes'
mkdir -p $mp || sudo -A mkdir -p $mp
case '*'
return 1
end
end
Finally, let’s close the function
end
Mount a USB drive, hard drive or partition
Alright, we want to mount a partition that answers by the name of
/dev/sdXX
, how do we do that? Let’s create first the function mountusb
that will take care of it for us.
function mountusb
Now, the first thing we want to do is select the partition we want to mount.
Remember, we stored those in $usbdrives
earlier, so let’s pipe them into
rofi so we can chose from it. Also, awk
will get their path in /dev
.
set -g chosen (echo $usbdrives | \
rofi -dmenu -i -p "Mount which drive?" | \
awk '{print $1}')
As usual after a user selection, let’s verify something has actually been selected. If not, let’s abort the script.
test -z $chosen && return 1
Now, let’s select the mount point of our partition. We’ll call the function
getmount
described in Get the mount point to select it.
getmount
Let’s verify the variable mp
set in getmount
is not empty, otherwise
abort the script.
test -z $mp && return 1
Now, let’s mount it! We’ll use a switch which will detect the filesystem used so we know how to mount the partition.
switch (lsblk -no "fstype" $chosen)
We have two named case: vfat
filesystems.
case "vfat"
sudo -A mount -t vfat $chosen $mp -o rw,umask=0000
And ntfs
filesystems.
case "ntfs"
sudo -A mount -t ntfs $chosen $mp -o rw,umask=0000
Else, we’ll let mount
determine which filesystem is used by the partition
(generally ext4
).
case '*'
sudo -A mount $chosen $mp
We’ll also run a chown
on this newly mounted filesystem so the user can
access it without any issues.
sudo -A chown -R $USER:(id -g $USER) $mp
Let’s close the switch block and send a notification the partition has been mounted.
end && notify-send -a "dmount" "💻 USB mounting" "$chosen mounted to $mp."
And let’s close the function.
end
Mount an Android device
The function that manages to mount Android filesystems is mountandroid
.
Let’s declare it.
function mountandroid -d "Mount an Android device"
We’ll select which Android we want to mount. We will be asked through rofi.
set chosen (echo $anddrives | rofi -dmenu -i -p "Which Android device?" | awk '{print $1 $2}' | sed 's/,$//')
Now, we need to get the bus of the Android device we want to mount. It will be useful later, after we authorized mounting from our device, to get the path to our partition.
set bus (echo $chosen | sed 's/,.*//')
Let’s temporarily mount our device.
jmtpfs -device=$chosen $mp
Now, we need to allow our computer to mount our Android device. Depending on the Android version it is running on, we either need to specify our device is USB connected in order to exchange files, or Android will explicitely ask us if it is OK for our computer to access it. Let’s inform the user of that.
echo "OK" | \
rofi -dmenu -i -p "Press (Allow) on your phone screen, or set your USB settings to allow file transfert"
Now, let’s get the actual path of our Android filesystem we wish to mount, and let’s unmount the previous temporary filesystem.
set newchosen (jmtpfs -l | grep $bus | awk '{print $1 $2}' | sed 's/,$//')
sudo -A umount $mp
Now we cam mount the new filesystem and send a notification if everything went well.
jmtpfs -device=$newchosen $mp && \
notify-send -a "dmount" "🤖 Android Mounting" "Android device mounted to $mp."
And now, we can close our function.
end
Mount a CD drive
This part is way easier than the previous functions. As we will see, the
function mountcd
's body is only three lines long. First, let’s declare the
function.
function mountcd
Now, let’s chose the CD drive we want to mount using rofi
.
set chosen (echo $cddrives | rofi -dmenu -i -p "Which CD drive?")
We’ll also get the mountpoint thanks to the getmount
function described
earlier.
getmount
And finally, let’s mount it and send the notification everything went well.
sudo -A mount $chosen $mp && \
notify-send -a "dmount" "💿 CD mounting" "$chosen mounted."
Finally, let’s close our function.
end
Ask what type of drive we want to mount
The first thing we will be asked if different types of drives are detected is
which of these types the user wishes to mount. This is done with the function
asktype
which is declared below.
function asktype
We will use a switch statement which will use our anwser to rofi about what we wish to mount.
switch (cat $TMPDRIVES | rofi -dmenu -i -p "Mount which drive?")
If we chose the option "USB", we’ll mount a hard drive, partition or USB
drive. In which case we’ll call the mountusb
function.
case "USB"
mountusb
If we chose the "Android" option, the mountandroid
function is called.
case "Android"
mountandroid
Else if we chose the "CD" option, we’ll call the mountcd
function.
case "CD"
mountcd
If nothing is selected, the function will naturally exit. Now, let’s close our switch statement and our function.
end
end
Launch the mounting functions
Now that we have declared our functions and set our variables, we’ll read the temporary file described in Get the mountable elements. The amount of lines is passed in a switch statement.
switch (wc -l < $TMPDRIVES)
If the file has no lines, i.e. it is empty, we have no mountable media. Let’s inform our user this is the case.
case 0
notify-send "No USB drive or Android device or CD detected" -a "dmount"
If we only have one line, we have only one type of mountable media. We’ll pass this line to a second switch statement.
case 1
switch (cat $TMPDRIVES)
This will allow the script to automatically detect what type of media it is, and mount the corresponding function.
case "USB"
mountusb
case "Android"
mountandroid
case "CD"
mountCD
Let’s close this nested switch case.
end
If we have more than one line, we’ll have to ask the user what type of media they want to mount.
case '*'
asktype
Now, let’s end our switch statement!
end
Finally, we’ll delete our temporary file.
rm -f $TMPDRIVES
And with that, this is the end of our script!
Rofi-pass
rofi-pass
is a simple utility that gets a password stored in the pass
password manager with rofi as its interface, and then stores the password in
the clipboard. It is a fish script, so let’s declare it as one.
#!/usr/bin/env fish
Let’s parse all the arguments passed to the script. If one of them is
--type
, -t
or type
, the script will attempt to type the password to the
text area already selected without pasting the password to the clipboard.
for arg in $argv
switch $arg
case '--type'
set -g TYPE "yes"
case '-t'
set -g TYPE "yes"
case 'type'
set -g TYPE "yes"
case '*'
printf 'Unknown argument: %s\n.' $arg
exit 1
end
end
Now, let’s get the list of the passwords that exist in our pass
repository.
set passwords (find $HOME/.password-store -type f -name "*.gpg" | \
string replace -r ".*.password-store/" "" | \
string replace -r ".gpg" "" | sort)
Let the user choose which password they wish to select.
set password (for elem in $passwords
echo $elem
end | rofi -dmenu -i -p "Select your password")
Let’s verify we actually selected a password and not just exited. If no password was selected, let’s simply exit the script.
if test -z $password
exit
end
Depending on the arguments passed earlier, we might want some different behavior.
if test $TYPE = "yes"
<<rofi-pass-type>>
else
<<rofi-pass-copy>>
end
The default behavior is to copy the password to the clipboard for 45 seconds, so let’s do that.
pass show -c $password 2> /dev/null
Else, if we passed --type
, -t
or type
as an argument of the script, we
want it to attempt to type our password in the currently selected text input.
Let’s do that.
set -l IFS
<<rofi-pass-type-get-password>>
printf %s $pass | xvkbd -file -
To correctly get the password from pass
, we need to parse the output and
only get the first line, hence the following command.
set pass (pass show $password | string split -n \n)[1]
Rofi-umount
rofiumount
is the counterpart of rofimount
for unmounting our mounted
partitions. It is a fish script, so let’s declare it as that with its shebang.
#!/usr/bin/env fish
Get the unmountable drives
First, we will need to list all the drives that can be safely unmounted. Let’s run this.
set -g drives (lsblk -nrpo "name,type,size,mountpoint" | \
awk '$2=="part"&&$4!~/\/boot|\/home$|SWAP/&&length($4)>1{printf "%s (%s)\n",$4,$3}')
Now, let’s get the android devices that are mounted.
set -g androids (awk '/jmtpfs/ {print $2}' /etc/mtab)
And let’s get the CD drives that are mounted.
set -g cds (awk '/sr0/ {print $2}' /etc/mtab)
We’ll store all of our information in a temporary file, /tmp/undrives
.
set -g undrivefile /tmp/undrives
Let’s make sure we begin with a clean, empty file.
rm -f $undrivefile
touch $undrivefile
Depending on if the related variables are set, write the different types of mounted drives in the temporary file.
test -n "$drives" && echo "USB" >> $undrivefile
test -n "$cds" && echo "CD" >> $undrivefile
test -n "$androids" && echo "Android" >> $undrivefile
Unmount disk partitions
The function unmountusb
will take care of unmounting any drive we can
safely unmount. First, let’s declare the function.
function unmountusb
Let’s chose the drive to unmount with rofi.
set chosen (echo $drives | \
rofi -dmenu -i -p "Unmount which drive?" | \
awk '{print $1}')
Let’s verify if the user actually selected any drive. If no, let’s abort the script.
test -z "$chosen" && exit 0
Now, let’s unmount the chosen drive and send a notification if it has been done.
sudo -A umount $chosen && \
notify-send "💻 USB unmounting" "$chosen unmounted." -a "dumount"
Now, let’s close the function.
end
Unmount Android device
The function unmountandroid
will take care of unmounting any mounted
Android device. First, let’s declare our function.
function unmountandroid
Let the user choose which Android device to unmount.
set chosen (echo $androids | rofi -dmenu -i -p "Unmount which device?")
We’ll verify the user chose any device.
test -z "$chosen" && exit 0
If a device has been chosen, let’s unmount it and send a notification it has been successfuly unmounted.
sudo -A umount -l $chosen && \
notify-send "🤖 Android unmounting" "$chosen unmounted." -a "dumount"
Finally, let’s close the function.
end
Unmount CD drive
unmountcd
will take care of unmounting any mounted CD drive. Let’s declare
this function.
function unmountcd
As before, let the user chose which CD drive to unmount.
set chosen (echo "$cds" | rofi -dmenu -i -p "Unmount which CD?")
We’ll verify the user chose any device.
test -z "$chosen" && exit 0
If a drive has been chosen, let’s unmount it and send a notification it has been successfuly unmounted.
sudo -A umount -l $chosen && \
notify-send "💿 CD unmounting" "$chosen unmounted." -a "dumount"
Now, let’s close the function.
end
Ask what type of drive to unmount
If several types of unmountable drives are available, let’s ask the user which type to unmount based on the content of the temporary file declared in Get the unmountable drives. First, let’s declare the function.
function asktype
Let’s create a switch statement to which will be passed the selection of the user from rofi.
switch (cat $undrivefile | rofi -dmenu -i -p "Unmount which type of device?")
Three types of values can be returned: "USB", "CD", or "Android". These values will be used to launch their corresponding function.
case 'USB'
unmountusb
case 'CD'
unmountcd
case 'Android'
unmountandroid
Let’s close the switch statement.
end
Let’s now close the function.
end
Launch the unmounting functions
Now back to the body of our script, let’s input in a switch case the number of lines contained in our temporary file.
switch (wc -l < $undrivefile)
If the file containes no lines. i.e. it is empty, nothing is to be unmounted. Let’s inform the user of that.
case 0
notify-send "No USB drive or Android device or CD to unmount" -a "dumount"
Else, if there is only one type of drive, we’ll automatically let our script choose based on the content of this sole line.
case 1
switch (cat $undrivefile)
case 'USB'
unmountusb
case 'CD'
unmountcd
case 'Android'
unmountandroid
end
And if there are more types than one, let’s ask the user.
case '*'
asktype
Let’s close our main switch statement.
end
And finally, let’s delete our temporary file.
rm -f $undrivefile
Starwars
This is a one-liner that allows you to watch Star Wars episode 4 in ASCII art in your terminal. Here is the code:
#!/usr/bin/env fish
telnet towel.blinkenlights.nl
UpdateFlutter
This is a simple utility to be ran when the flutter
package is updated.
#!/usr/bin/fish
sudo chown -R :flutterusers /opt/flutter
sudo chmod -R g+w /opt/flutter
sudo chmod a+rw /opt/flutter/version
sudo chown $USER:(id -g $USER) /opt/flutter/bin/cache
Wacom setup
I made a small and quick utility to set up my Wacom tablet so it is only bound to one screen. This is a fish script, so let’s insert the sheband.
#!/usr/bin/env fish
Set our variables
Let’s first declare our function that will be called to set our variables.
function set_device
We need some variables in order to correctly set our tablet. First, let’s get declare what the name of our tablet is, and what the name of its touchpad is.
set -g DEVICE "Wacom USB Bamboo PAD Pen stylus"
set -g DEVICETOUCH "Wacom USB Bamboo PAD Finger touch"
We will also modify two settings: the speed of the cursor on the touchpad, and the scroll speed. Let’s declare the name of these two settings.
set -g WACOMPROPTOUCHSPEED "Device Accel Velocity Scaling"
set -g WACOMPROPSCROLLPSEED "ScrollDistance"
To get the correct values for the area it can cover, we’ll need to reset our tablet.
xsetwacom set "$DEVICE" ResetArea
Now we can get the X and Y areas.
set -l AREATOT (xsetwacom get "$DEVICE" Area)
set -g AREAX (echo $AREATOT | awk '{print $3}')
set -g AREAY (echo $AREATOT | awk '{print $4}')
Now let’s close our function.
end
Select our screen
This function will allow us to select the screen on which the tablet will be active. We can also select the option “desktop” so that all screens are selected. Let’s declare our function.
function set_screen
First, let’s set what screens are available, including the desktop option.
set CONNECTED_DISPLAYS (xrandr -q --current | \
sed -n 's/^\([^ ]\+\) connected .*/\1/p') desktop
Now, let’s select the one we wish to use using rofi.
set -g SCREEN (for d in $CONNECTED_DISPLAYS
echo $d
end | rofi -dmenu -i -p "Select your dispaly" | tr -d '\n')
Now, let’s get the resolution of our selected screen.
set -l LINE (xrandr -q --current | if [ "$SCREEN" = "desktop" ]
sed -n 's/^Screen 0:.*, current \([0-9]\+\) x \([0-9]\+\),.*/\1 \2/p'
else
sed -n "s/^$SCREEN"' connected \(primary \)\{0,1\}\([0-9]\+\)x\([0-9]\+\)+.*/\2 \3/p'
end)
From that, let’s get the vertical and horizontal resolution of our screen.
echo $LINE | read -g WIDTH HEIGHT
If any of our WIDTH
ou HEIGHT
it empty, we’ll have to abort the script.
if test -z $WIDTH || test -z $HEIGHT
exit 1
end
Let’s close our function now.
end
Adjust the tablet
This function will take care of adjusting our tablet to our screen. Let’s declare our function.
function adjust_device
If our screen is too high or too wide for our tablet, we will have to adjust the height or width of the area used by the tablet. So let’s get the theoretical new height and width of the area.
set RATIOAREAY (math ceil \($AREAX \* $HEIGHT \/ $WIDTH\))
set RATIOAREAX (math ceil \($AREAY \* $WIDTH \/ $HEIGHT\))
Now, if the current height of the tablet’s area is greater than the
theoretical new area, it means the current area is too high. Otherwise, it
should be the other way around. Let’s set NEWAREAX
and NEWAREAY
that will
be used to set the new area for the tablet.
if test $AREAY -gt $RATIOAREAY
set -g NEWAREAX $AREAX
set -g NEWAREAY $RATIOAREAY
else
set -g NEWAREAX $RATIOAREAX
set -g NEWAREAY $AREAY
end
Alright, now let’s set the new area with these new variables.
xsetwacom set "$DEVICE" Area 0 0 $NEWAREAX $NEWAREAY
xsetwacom set "$DEVICE" MapToOutput "$SCREEN"
Let’s slow down the cursor’s speed on the touchpad.
xinput set-float-prop $DEVICETOUCH $WACOMPROPTOUCHSPEED 0.5
Let’s also slow down the scroll speed of the touchpad.
xsetwacom set $DEVICETOUCH $WACOMPROPSCROLLPSEED "90"
Now, let’s close the function.
end
Lauch the functions
Back to the main body of the script, we can now launch the functions sequencially.
set_device
set_screen
adjust_device
Yadm
For some reason, yadm
won’t stop making polybar crash. So, I created this
script that will wrap yadm with a call to yadm, and then a call to
polybar-launch
declared in Polybar-launch. This is a oneliner, as you can
see below:
#!/usr/bin/env fish
/usr/bin/yadm $argv; polybar-launch 2>/dev/null >/dev/null