refactor(wezterm): ignore wezterm shell files

These only work on zsh and bash anyways
main
sgoudham 1 year ago
parent ea4de175b3
commit 1b5b23b72f
Signed by: hammy
GPG Key ID: 44E818FD5457EEA4

@ -1 +1,3 @@
wezterm-bar
wezterm_terminfo
wezterm.sh

@ -1,463 +0,0 @@
# shellcheck shell=bash
# This file hooks up shell integration for wezterm.
# It is suitable for zsh and bash.
#
# Although wezterm is mentioned here, the sequences used are not wezterm
# specific and may provide the same functionality for other terminals. Most
# terminals are good at ignoring OSC sequences that they don't understand, but
# if not there are some bypasses:
#
# WEZTERM_SHELL_SKIP_ALL - disables all
# WEZTERM_SHELL_SKIP_SEMANTIC_ZONES - disables zones
# WEZTERM_SHELL_SKIP_CWD - disables OSC 7 cwd setting
# shellcheck disable=SC2166
if [ -z "${BASH_VERSION}" -a -z "${ZSH_NAME}" ] ; then
# Only for bash or zsh
return 0
fi
if [ "${WEZTERM_SHELL_SKIP_ALL}" = "1" ] ; then
return 0
fi
if [[ $- != *i* ]] ; then
# Shell integration is only useful in interactive sessions
return 0
fi
case "$TERM" in
linux | dumb )
# Avoid terminals that don't like OSC sequences
return 0
;;
esac
# This function wraps bash-preexec.sh so that it can be included verbatim
# in this file, even though it uses `return` to short-circuit in some cases.
__wezterm_install_bash_prexec() {
# bash-preexec.sh -- Bash support for ZSH-like 'preexec' and 'precmd' functions.
# https://github.com/rcaloras/bash-preexec
#
# 'preexec' functions are executed before each interactive command is
# executed, with the interactive command as its argument. The 'precmd'
# function is executed before each prompt is displayed.
#
# Author: Ryan Caloras (ryan@bashhub.com)
# Forked from Original Author: Glyph Lefkowitz
#
# V0.4.1
#
# General Usage:
#
# 1. Source this file at the end of your bash profile so as not to interfere
# with anything else that's using PROMPT_COMMAND.
#
# 2. Add any precmd or preexec functions by appending them to their arrays:
# e.g.
# precmd_functions+=(my_precmd_function)
# precmd_functions+=(some_other_precmd_function)
#
# preexec_functions+=(my_preexec_function)
#
# 3. Consider changing anything using the DEBUG trap or PROMPT_COMMAND
# to use preexec and precmd instead. Preexisting usages will be
# preserved, but doing so manually may be less surprising.
#
# Note: This module requires two Bash features which you must not otherwise be
# using: the "DEBUG" trap, and the "PROMPT_COMMAND" variable. If you override
# either of these after bash-preexec has been installed it will most likely break.
# Make sure this is bash that's running and return otherwise.
if [[ -z "${BASH_VERSION:-}" ]]; then
return 1;
fi
# Avoid duplicate inclusion
if [[ "${__bp_imported:-}" == "defined" ]]; then
return 0
fi
__bp_imported="defined"
# Should be available to each precmd and preexec
# functions, should they want it. $? and $_ are available as $? and $_, but
# $PIPESTATUS is available only in a copy, $BP_PIPESTATUS.
# TODO: Figure out how to restore PIPESTATUS before each precmd or preexec
# function.
__bp_last_ret_value="$?"
BP_PIPESTATUS=("${PIPESTATUS[@]}")
__bp_last_argument_prev_command="$_"
__bp_inside_precmd=0
__bp_inside_preexec=0
# Initial PROMPT_COMMAND string that is removed from PROMPT_COMMAND post __bp_install
__bp_install_string=$'__bp_trap_string="$(trap -p DEBUG)"\ntrap - DEBUG\n__bp_install'
# Fails if any of the given variables are readonly
# Reference https://stackoverflow.com/a/4441178
__bp_require_not_readonly() {
local var
for var; do
if ! ( unset "$var" 2> /dev/null ); then
echo "bash-preexec requires write access to ${var}" >&2
return 1
fi
done
}
# Remove ignorespace and or replace ignoreboth from HISTCONTROL
# so we can accurately invoke preexec with a command from our
# history even if it starts with a space.
__bp_adjust_histcontrol() {
local histcontrol
histcontrol="${HISTCONTROL//ignorespace}"
# Replace ignoreboth with ignoredups
if [[ "$histcontrol" == *"ignoreboth"* ]]; then
histcontrol="ignoredups:${histcontrol//ignoreboth}"
fi;
export HISTCONTROL="$histcontrol"
}
# This variable describes whether we are currently in "interactive mode";
# i.e. whether this shell has just executed a prompt and is waiting for user
# input. It documents whether the current command invoked by the trace hook is
# run interactively by the user; it's set immediately after the prompt hook,
# and unset as soon as the trace hook is run.
__bp_preexec_interactive_mode=""
# Trims leading and trailing whitespace from $2 and writes it to the variable
# name passed as $1
__bp_trim_whitespace() {
local var=${1:?} text=${2:-}
text="${text#"${text%%[![:space:]]*}"}" # remove leading whitespace characters
text="${text%"${text##*[![:space:]]}"}" # remove trailing whitespace characters
printf -v "$var" '%s' "$text"
}
# Trims whitespace and removes any leading or trailing semicolons from $2 and
# writes the resulting string to the variable name passed as $1. Used for
# manipulating substrings in PROMPT_COMMAND
__bp_sanitize_string() {
local var=${1:?} text=${2:-} sanitized
__bp_trim_whitespace sanitized "$text"
sanitized=${sanitized%;}
sanitized=${sanitized#;}
__bp_trim_whitespace sanitized "$sanitized"
printf -v "$var" '%s' "$sanitized"
}
# This function is installed as part of the PROMPT_COMMAND;
# It sets a variable to indicate that the prompt was just displayed,
# to allow the DEBUG trap to know that the next command is likely interactive.
__bp_interactive_mode() {
__bp_preexec_interactive_mode="on";
}
# This function is installed as part of the PROMPT_COMMAND.
# It will invoke any functions defined in the precmd_functions array.
__bp_precmd_invoke_cmd() {
# Save the returned value from our last command, and from each process in
# its pipeline. Note: this MUST be the first thing done in this function.
__bp_last_ret_value="$?" BP_PIPESTATUS=("${PIPESTATUS[@]}")
# Don't invoke precmds if we are inside an execution of an "original
# prompt command" by another precmd execution loop. This avoids infinite
# recursion.
if (( __bp_inside_precmd > 0 )); then
return
fi
local __bp_inside_precmd=1
# Invoke every function defined in our function array.
local precmd_function
for precmd_function in "${precmd_functions[@]}"; do
# Only execute this function if it actually exists.
# Test existence of functions with: declare -[Ff]
if type -t "$precmd_function" 1>/dev/null; then
__bp_set_ret_value "$__bp_last_ret_value" "$__bp_last_argument_prev_command"
# Quote our function invocation to prevent issues with IFS
"$precmd_function"
fi
done
return $__bp_last_ret_value
}
# Sets a return value in $?. We may want to get access to the $? variable in our
# precmd functions. This is available for instance in zsh. We can simulate it in bash
# by setting the value here.
__bp_set_ret_value() {
return ${1:-}
}
__bp_in_prompt_command() {
local prompt_command_array
IFS=$'\n;' read -rd '' -a prompt_command_array <<< "$PROMPT_COMMAND"
local trimmed_arg
__bp_trim_whitespace trimmed_arg "${1:-}"
local command trimmed_command
for command in "${prompt_command_array[@]:-}"; do
__bp_trim_whitespace trimmed_command "$command"
if [[ "$trimmed_command" == "$trimmed_arg" ]]; then
return 0
fi
done
return 1
}
# This function is installed as the DEBUG trap. It is invoked before each
# interactive prompt display. Its purpose is to inspect the current
# environment to attempt to detect if the current command is being invoked
# interactively, and invoke 'preexec' if so.
__bp_preexec_invoke_exec() {
# Save the contents of $_ so that it can be restored later on.
# https://stackoverflow.com/questions/40944532/bash-preserve-in-a-debug-trap#40944702
__bp_last_argument_prev_command="${1:-}"
# Don't invoke preexecs if we are inside of another preexec.
if (( __bp_inside_preexec > 0 )); then
return
fi
local __bp_inside_preexec=1
# Checks if the file descriptor is not standard out (i.e. '1')
# __bp_delay_install checks if we're in test. Needed for bats to run.
# Prevents preexec from being invoked for functions in PS1
if [[ ! -t 1 && -z "${__bp_delay_install:-}" ]]; then
return
fi
if [[ -n "${COMP_LINE:-}" ]]; then
# We're in the middle of a completer. This obviously can't be
# an interactively issued command.
return
fi
if [[ -z "${__bp_preexec_interactive_mode:-}" ]]; then
# We're doing something related to displaying the prompt. Let the
# prompt set the title instead of me.
return
else
# If we're in a subshell, then the prompt won't be re-displayed to put
# us back into interactive mode, so let's not set the variable back.
# In other words, if you have a subshell like
# (sleep 1; sleep 2)
# You want to see the 'sleep 2' as a set_command_title as well.
if [[ 0 -eq "${BASH_SUBSHELL:-}" ]]; then
__bp_preexec_interactive_mode=""
fi
fi
if __bp_in_prompt_command "${BASH_COMMAND:-}"; then
# If we're executing something inside our prompt_command then we don't
# want to call preexec. Bash prior to 3.1 can't detect this at all :/
__bp_preexec_interactive_mode=""
return
fi
local this_command
this_command=$(
export LC_ALL=C
HISTTIMEFORMAT= builtin history 1 | sed '1 s/^ *[0-9][0-9]*[* ] //'
)
# Sanity check to make sure we have something to invoke our function with.
if [[ -z "$this_command" ]]; then
return
fi
# Invoke every function defined in our function array.
local preexec_function
local preexec_function_ret_value
local preexec_ret_value=0
for preexec_function in "${preexec_functions[@]:-}"; do
# Only execute each function if it actually exists.
# Test existence of function with: declare -[fF]
if type -t "$preexec_function" 1>/dev/null; then
__bp_set_ret_value ${__bp_last_ret_value:-}
# Quote our function invocation to prevent issues with IFS
"$preexec_function" "$this_command"
preexec_function_ret_value="$?"
if [[ "$preexec_function_ret_value" != 0 ]]; then
preexec_ret_value="$preexec_function_ret_value"
fi
fi
done
# Restore the last argument of the last executed command, and set the return
# value of the DEBUG trap to be the return code of the last preexec function
# to return an error.
# If `extdebug` is enabled a non-zero return value from any preexec function
# will cause the user's command not to execute.
# Run `shopt -s extdebug` to enable
__bp_set_ret_value "$preexec_ret_value" "$__bp_last_argument_prev_command"
}
__bp_install() {
# Exit if we already have this installed.
if [[ "${PROMPT_COMMAND:-}" == *"__bp_precmd_invoke_cmd"* ]]; then
return 1;
fi
trap '__bp_preexec_invoke_exec "$_"' DEBUG
# Preserve any prior DEBUG trap as a preexec function
local prior_trap=$(sed "s/[^']*'\(.*\)'[^']*/\1/" <<<"${__bp_trap_string:-}")
unset __bp_trap_string
if [[ -n "$prior_trap" ]]; then
eval '__bp_original_debug_trap() {
'"$prior_trap"'
}'
preexec_functions+=(__bp_original_debug_trap)
fi
# Adjust our HISTCONTROL Variable if needed.
__bp_adjust_histcontrol
# Issue #25. Setting debug trap for subshells causes sessions to exit for
# backgrounded subshell commands (e.g. (pwd)& ). Believe this is a bug in Bash.
#
# Disabling this by default. It can be enabled by setting this variable.
if [[ -n "${__bp_enable_subshells:-}" ]]; then
# Set so debug trap will work be invoked in subshells.
set -o functrace > /dev/null 2>&1
shopt -s extdebug > /dev/null 2>&1
fi;
local existing_prompt_command
# Remove setting our trap install string and sanitize the existing prompt command string
existing_prompt_command="${PROMPT_COMMAND//$__bp_install_string[;$'\n']}" # Edge case of appending to PROMPT_COMMAND
existing_prompt_command="${existing_prompt_command//$__bp_install_string}"
__bp_sanitize_string existing_prompt_command "$existing_prompt_command"
# Install our hooks in PROMPT_COMMAND to allow our trap to know when we've
# actually entered something.
PROMPT_COMMAND=$'__bp_precmd_invoke_cmd\n'
if [[ -n "$existing_prompt_command" ]]; then
PROMPT_COMMAND+=${existing_prompt_command}$'\n'
fi;
PROMPT_COMMAND+='__bp_interactive_mode'
# Add two functions to our arrays for convenience
# of definition.
precmd_functions+=(precmd)
preexec_functions+=(preexec)
# Invoke our two functions manually that were added to $PROMPT_COMMAND
__bp_precmd_invoke_cmd
__bp_interactive_mode
}
# Sets an installation string as part of our PROMPT_COMMAND to install
# after our session has started. This allows bash-preexec to be included
# at any point in our bash profile.
__bp_install_after_session_init() {
# bash-preexec needs to modify these variables in order to work correctly
# if it can't, just stop the installation
__bp_require_not_readonly PROMPT_COMMAND HISTCONTROL HISTTIMEFORMAT || return
local sanitized_prompt_command
__bp_sanitize_string sanitized_prompt_command "$PROMPT_COMMAND"
if [[ -n "$sanitized_prompt_command" ]]; then
PROMPT_COMMAND=${sanitized_prompt_command}$'\n'
fi;
PROMPT_COMMAND+=${__bp_install_string}
}
# Run our install so long as we're not delaying it.
if [[ -z "${__bp_delay_install:-}" ]]; then
__bp_install_after_session_init
fi;
} # end of __wezterm_install_bash_prexec
# blesh provides it's own preexec mechanism which is recommended over bash-preexec
# See https://github.com/akinomyoga/ble.sh/wiki/Manual-%C2%A71-Introduction#user-content-fn-blehook for more details
if [[ ! -n "$BLE_VERSION" ]]; then
__wezterm_install_bash_prexec
fi
# This function emits an OSC 7 sequence to inform the terminal
# of the current working directory. It prefers to use a helper
# command provided by wezterm if wezterm is installed, but falls
# back to a simple printf command otherwise.
__wezterm_osc7() {
if hash wezterm 2>/dev/null ; then
wezterm set-working-directory 2>/dev/null && return 0
# If the command failed (perhaps the installed wezterm
# is too old?) then fall back to the simple version below.
fi
printf "\033]7;file://%s%s\033\\" "${HOSTNAME}" "${PWD}"
}
# The semantic precmd and prexec functions generate semantic
# zones, marking up the prompt, the user input and the command
# output so that the terminal can better reason about the display.
__wezterm_semantic_precmd_executing=""
__wezterm_semantic_precmd() {
local ret="$?"
if [[ "$__wezterm_semantic_precmd_executing" != "0" ]] ; then
__wezterm_save_ps1="$PS1"
__wezterm_save_ps2="$PS2"
# Markup the left and right prompts so that the terminal
# knows that they are semantically prompt output.
if [[ -n "$ZSH_NAME" ]] ; then
PS1=$'%{\e]133;P;k=i\a%}'$PS1$'%{\e]133;B\a%}'
PS2=$'%{\e]133;P;k=s\a%}'$PS2$'%{\e]133;B\a%}'
else
PS1='\[\e]133;P;k=i\a\]'$PS1'\[\e]133;B\a\]'
PS2='\[\e]133;P;k=s\a\]'$PS2'\[\e]133;B\a\]'
fi
fi
if [[ "$__wezterm_semantic_precmd_executing" != "" ]] ; then
# Report last command status
printf "\033]133;D;%s;aid=%s\007" "$ret" "$$"
fi
# Fresh line and start the prompt
printf "\033]133;A;cl=m;aid=%s\007" "$$"
__wezterm_semantic_precmd_executing=0
}
function __wezterm_semantic_preexec() {
# Restore the original PS1/PS2
PS1="$__wezterm_save_ps1"
PS2="$__wezterm_save_ps2"
# Indicate that the command output begins here
printf "\033]133;C;\007"
__wezterm_semantic_precmd_executing=1
}
# Register the various functions; take care to perform osc7 after
# the semantic zones as we don't want to perturb the last command
# status before we've had a chance to report it to the terminal
if [[ -z "${WEZTERM_SHELL_SKIP_SEMANTIC_ZONES}" ]]; then
if [[ -n "$BLE_VERSION" ]]; then
blehook PRECMD+=__wezterm_semantic_precmd
blehook PREEXEC+=__wezterm_semantic_preexec
else
precmd_functions+=(__wezterm_semantic_precmd)
preexec_functions+=(__wezterm_semantic_preexec)
fi
fi
if [[ -z "${WEZTERM_SHELL_SKIP_CWD}" ]] ; then
if [[ -n "$BLE_VERSION" ]]; then
blehook PRECMD+=__wezterm_osc7
else
precmd_functions+=(__wezterm_osc7)
fi
fi
true

@ -1,89 +0,0 @@
# This is Wez's term definition for wezterm.
# It was reconstructed via infocmp from file: /lib/terminfo/x/xterm-256color
# and then has some additions in the top few lines (until the line starting
# with am).
# Tc: true color boolean for tmux
# sitm/ritm: italics
# Ms modifies the selection/clipboard. Its parameters are
# p1 = the storage unit (clipboard, selection or cut buffer)
# p2 = the base64-encoded clipboard content.
#
# Ss is used to set the cursor style as described by the DECSCUSR
# function to a block or underline.
# Se resets the cursor style to the terminal power-on default.
# Smulx defines kitty style underline escape sequence support
#
# hs, dsl, fsl, tsl are used by nvim to amend the "status line".
# These are not normally present for xterm and have assumed values
# when TERM==xterm. When using this terminfo file that assumption is not
# true and that functionality is broken.
# We follow the foot's terminfo settings for these, based on
# https://codeberg.org/dnkl/foot/pulls/243/files
# although we use OSC 0 for the title rather than OSC 2.
# https://github.com/neovim/neovim/issues/20706
# https://github.com/wez/wezterm/issues/2635
wezterm|Wez's terminal emulator,
Tc,
hs,
sitm=\E[3m, ritm=\E[23m,
Cr=\E]112\007, Cs=\E]12;%p1%s\007, Ms=\E]52;%p1%s;%p2%s\007, Se=\E[2\sq,
Ss=\E[%p1%d\sq,
Smulx=\E[4:%p1%dm,
Sync=\E[?2026%?%p1%{1}%-%tl%eh,
Setulc=\E[58:2::%p1%{65536}%/%d:%p1%{256}%/%{255}%&%d:%p1%{255}%&%d%;m,
Smol=\E[53m,
am, bce, ccc, km, mc5i, mir, msgr, npc, xenl,
colors#0x100, cols#80, it#8, lines#24, pairs#0x7fff,
acsc=``aaffggiijjkkllmmnnooppqqrrssttuuvvwwxxyyzz{{||}}~~,
bel=^G, blink=\E[5m, bold=\E[1m, cbt=\E[Z, civis=\E[?25l,
clear=\E[H\E[2J, cnorm=\E[?12l\E[?25h, cr=\r,
csr=\E[%i%p1%d;%p2%dr, cub=\E[%p1%dD, cub1=^H,
cud=\E[%p1%dB, cud1=\n, cuf=\E[%p1%dC, cuf1=\E[C,
cup=\E[%i%p1%d;%p2%dH, cuu=\E[%p1%dA, cuu1=\E[A,
cvvis=\E[?12;25h, dch=\E[%p1%dP, dch1=\E[P, dim=\E[2m,
dl=\E[%p1%dM, dl1=\E[M, dsl=\E]2;\E\\,
ech=\E[%p1%dX, ed=\E[J, el=\E[K,
el1=\E[1K, flash=\E[?5h$<100/>\E[?5l, fsl=\E\\, home=\E[H,
hpa=\E[%i%p1%dG, ht=^I, hts=\EH, ich=\E[%p1%d@,
il=\E[%p1%dL, il1=\E[L, ind=\n, indn=\E[%p1%dS,
initc=\E]4;%p1%d;rgb\:%p2%{255}%*%{1000}%/%2.2X/%p3%{255}%*%{1000}%/%2.2X/%p4%{255}%*%{1000}%/%2.2X\E\\,
invis=\E[8m, is2=\E[!p\E[?3;4l\E[4l\E>, kDC=\E[3;2~,
kEND=\E[1;2F, kHOM=\E[1;2H, kIC=\E[2;2~, kLFT=\E[1;2D,
kNXT=\E[6;2~, kPRV=\E[5;2~, kRIT=\E[1;2C, kb2=\EOE, kbs=^?,
kcbt=\E[Z, kcub1=\EOD, kcud1=\EOB, kcuf1=\EOC, kcuu1=\EOA,
kdch1=\E[3~, kend=\EOF, kent=\EOM, kf1=\EOP, kf10=\E[21~,
kf11=\E[23~, kf12=\E[24~, kf13=\E[1;2P, kf14=\E[1;2Q,
kf15=\E[1;2R, kf16=\E[1;2S, kf17=\E[15;2~, kf18=\E[17;2~,
kf19=\E[18;2~, kf2=\EOQ, kf20=\E[19;2~, kf21=\E[20;2~,
kf22=\E[21;2~, kf23=\E[23;2~, kf24=\E[24;2~,
kf25=\E[1;5P, kf26=\E[1;5Q, kf27=\E[1;5R, kf28=\E[1;5S,
kf29=\E[15;5~, kf3=\EOR, kf30=\E[17;5~, kf31=\E[18;5~,
kf32=\E[19;5~, kf33=\E[20;5~, kf34=\E[21;5~,
kf35=\E[23;5~, kf36=\E[24;5~, kf37=\E[1;6P, kf38=\E[1;6Q,
kf39=\E[1;6R, kf4=\EOS, kf40=\E[1;6S, kf41=\E[15;6~,
kf42=\E[17;6~, kf43=\E[18;6~, kf44=\E[19;6~,
kf45=\E[20;6~, kf46=\E[21;6~, kf47=\E[23;6~,
kf48=\E[24;6~, kf49=\E[1;3P, kf5=\E[15~, kf50=\E[1;3Q,
kf51=\E[1;3R, kf52=\E[1;3S, kf53=\E[15;3~, kf54=\E[17;3~,
kf55=\E[18;3~, kf56=\E[19;3~, kf57=\E[20;3~,
kf58=\E[21;3~, kf59=\E[23;3~, kf6=\E[17~, kf60=\E[24;3~,
kf61=\E[1;4P, kf62=\E[1;4Q, kf63=\E[1;4R, kf7=\E[18~,
kf8=\E[19~, kf9=\E[20~, khome=\EOH, kich1=\E[2~,
kind=\E[1;2B, knp=\E[6~, kpp=\E[5~,
kri=\E[1;2A, mc0=\E[i, mc4=\E[4i, mc5=\E[5i, meml=\El,
memu=\Em, oc=\E]104\007, op=\E[39;49m, rc=\E8,
rep=%p1%c\E[%p2%{1}%-%db, rev=\E[7m, ri=\EM,
rin=\E[%p1%dT, ritm=\E[23m, rmacs=\E(B, rmam=\E[?7l,
rmcup=\E[?1049l\E[23;0;0t, rmir=\E[4l, rmkx=\E[?1l\E>,
rmm=\E[?1034l, rmso=\E[27m, rmul=\E[24m, rmxx=\E[29m,
rs1=\Ec\E]104\007, rs2=\E[!p\E[?3;4l\E[4l\E>, sc=\E7,
setab=\E[%?%p1%{8}%<%t4%p1%d%e%p1%{16}%<%t10%p1%{8}%-%d%e48;5;%p1%d%;m,
setaf=\E[%?%p1%{8}%<%t3%p1%d%e%p1%{16}%<%t9%p1%{8}%-%d%e38;5;%p1%d%;m,
sgr=%?%p9%t\E(0%e\E(B%;\E[0%?%p6%t;1%;%?%p5%t;2%;%?%p2%t;4%;%?%p1%p3%|%t;7%;%?%p4%t;5%;%?%p7%t;8%;m,
sgr0=\E(B\E[m, sitm=\E[3m, smacs=\E(0, smam=\E[?7h,
smcup=\E[?1049h\E[22;0;0t, smir=\E[4h, smkx=\E[?1h\E=,
smm=\E[?1034h, smso=\E[7m, smul=\E[4m, smxx=\E[9m,
tbc=\E[3g, tsl=\E]0;, u6=\E[%i%d;%dR, u7=\E[6n, u8=\E[?%[;0123456789]c,
u9=\E[c, vpa=\E[%i%p1%dd, XM=\E[?1003;1006%?%p1%{1}%=%th%el%;,
kmous=\E[<, XM=\E[?1006;1000%?%p1%{1}%=%th%el%;,
xm=\E[<%i%p3%d;%p1%d;%p2%d;%?%p4%tM%em%;,
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