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complete_alias
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complete_alias
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#!/bin/bash
## ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
## automagical shell alias completion;
## ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
## ============================================================================
## Copyright (C) 2016-2021 Cyker Way
##
## This program is free software: you can redistribute it and/or modify it
## under the terms of the GNU General Public License as published by the Free
## Software Foundation, either version 3 of the License, or (at your option)
## any later version.
##
## This program is distributed in the hope that it will be useful, but WITHOUT
## ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
## FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
## more details.
##
## You should have received a copy of the GNU General Public License along with
## this program. If not, see <http://www.gnu.org/licenses/>.
## ============================================================================
## ============================================================================
## # environment variables
##
## these are envars read by this script; users are advised to set these envars
## before sourcing this script to customize its behavior, even though some may
## still work if set after sourcing this script; these envar names must follow
## this naming convention: all letters uppercase, no leading underscore, words
## separated by one underscore;
## ============================================================================
## bool: true iff auto unmask alias commands; set it to false if auto unmask
## feels too slow, or custom unmask is necessary to make an unusual behavior;
COMPAL_AUTO_UNMASK="${COMPAL_AUTO_UNMASK:-0}"
## ============================================================================
## # variables
## ============================================================================
## register for keeping function return value;
__compal__retval=
## refcnt for alias expansion; expand aliases iff `_refcnt == 0`;
__compal__refcnt=0
## an associative array of vanilla completions, keyed by command names;
##
## when we say this array stores "parsed" cspecs, we actually mean the cspecs
## have been parsed and indexed by command names in this array; cspec strings
## themselves have no difference between this array and `_raw_vanilla_cspecs`;
##
## example:
##
## _vanilla_cspecs["tee"]="complete -F _longopt tee"
## _vanilla_cspecs["type"]="complete -c type"
## _vanilla_cspecs["unalias"]="complete -a unalias"
## ...
##
declare -A __compal__vanilla_cspecs
## a set of raw vanilla completions, keyed by cspec; these raw cspecs will be
## parsed and loaded into `_vanilla_cspecs` on use; we need this lazy loading
## because parsing all cspecs on sourcing incurs a large performance overhead;
##
## vanilla completions are alias-free and fetched before `_complete_alias` is
## set as the completion function for alias commands; the way we enforce this
## partial order is to init this array on source; the sourcing happens before
## `complete -F _complete_alias ...` for obvious reasons;
##
## this is made a set, not an array, to avoid duplication when this script is
## sourced repeatedly; each sourcing overwrites previous ones on duplication;
##
## example:
##
## _raw_vanilla_cspecs["complete -F _longopt tee"]=""
## _raw_vanilla_cspecs["complete -c type"]=""
## _raw_vanilla_cspecs[""complete -a unalias"]=""
## ...
##
declare -A __compal__raw_vanilla_cspecs
## ============================================================================
## # functions
## ============================================================================
## debug bash programmable completion variables;
__compal__debug() {
echo
echo "#COMP_WORDS=${#COMP_WORDS[@]}"
echo "COMP_WORDS=("
for x in "${COMP_WORDS[@]}"; do
echo "'$x'"
done
echo ")"
echo "COMP_CWORD=${COMP_CWORD}"
echo "COMP_LINE='${COMP_LINE}'"
echo "COMP_POINT=${COMP_POINT}"
echo
}
## debug vanilla cspecs;
##
## $1
## : if "key" dump keys, else dump values;
__compal__debug_vanilla_cspecs() {
if [[ "$1" == "key" ]]; then
for x in "${!__compal__vanilla_cspecs[@]}"; do
echo "$x"
done
else
for x in "${__compal__vanilla_cspecs[@]}"; do
echo "$x"
done
fi
}
## debug raw vanilla cspecs;
__compal__debug_raw_vanilla_cspecs() {
for x in "${!__compal__raw_vanilla_cspecs[@]}"; do
echo "$x"
done
}
## debug `_split_cmd_line`;
##
## this function is very easy to use; just call it with a string argument in an
## interactive shell and look at the result; some interesting string arguments:
##
## - (fail) `&> /dev/null ping`
## - (fail) `2> /dev/null ping`
## - (fail) `2>&1 > /dev/null ping`
## - (fail) `> /dev/null ping`
## - (work) `&>/dev/null ping`
## - (work) `2>&1 >/dev/null ping`
## - (work) `2>&1 ping`
## - (work) `2>/dev/null ping`
## - (work) `>/dev/null ping`
## - (work) `FOO=foo true && BAR=bar ping`
## - (work) `echo & echo & ping`
## - (work) `echo ; echo ; ping`
## - (work) `echo | echo | ping`
## - (work) `ping &> /dev/null`
## - (work) `ping &>/dev/null`
## - (work) `ping 2> /dev/null`
## - (work) `ping 2>&1 > /dev/null`
## - (work) `ping 2>&1 >/dev/null`
## - (work) `ping 2>&1`
## - (work) `ping 2>/dev/null`
## - (work) `ping > /dev/null`
## - (work) `ping >/dev/null`
##
## these failed examples are not an emergency because you can easily find their
## equivalents in those working ones; and we will check for emergency on failed
## examples added in the future;
##
## $1
## : command line string;
__compal__debug_split_cmd_line() {
## command line string;
local str="$1"
__compal__split_cmd_line "$str"
for x in "${__compal__retval[@]}"; do
echo "'$x'"
done
}
## print an error message;
##
## $1
## : error message;
__compal__error() {
printf "error: %s\n" "$1" >&2
}
## test whether an element is in array;
##
## $@
## : ( elem arr[0] arr[1] ... )
__compal__inarr() {
for e in "${@:2}"; do
[[ "$e" == "$1" ]] && return 0
done
return 1
}
## split command line into words;
##
## the `bash` reference implementation shows how bash splits command line into
## word list `COMP_WORDS`:
##
## - git repo <https://git.savannah.gnu.org/cgit/bash.git>;
## - commit `ce23728687ce9e584333367075c9deef413553fa`;
## - function `bashline.c:attempt_shell_completion`;
## - function `bashline.c:find_cmd_end`;
## - function `bashline.c:find_cmd_start`;
## - function `pcomplete.c:command_line_to_word_list`;
## - function `pcomplete.c:programmable_completions`;
## - function `subst.c:skip_to_delim`;
## - function `subst.c:split_at_delims`;
##
## this function shall give similar result as `bash` reference implementation
## for common use cases, but will not strive for full compatibility, which is
## too complicated when written in bash; we will support additional use cases
## as they show up and prove worthy;
##
## another reason we not pursue full compatibility is, even bash itself fails
## on some use cases, such as `ping 2>&1` and `ping &>/dev/null`; ironically,
## if we define an alias and complete using `_complete_alias`, then it works:
##
## $ alias ping='ping 2>&1'
## $ complete -F _complete_alias ping
## $ ping <tab>
## {ip}
## {ip}
## {ip}
##
## warn: the output of this function is *not* a faithful split of the input;
## this function drops redirections and assignments, and only keeps the last
## command in the last pipeline;
##
## warn: this function is made for alias body expansion; as such it does not
## support commmand substitutions, etc.; if you run its output as argv, then
## you run at your own risk; quotes and escapes may also disturb the result;
##
## $1
## : command line string;
__compal__split_cmd_line() {
## command line string;
local str="$1"
## an array that will contain words after split;
local words=()
## alloc a temp stack to track open and close chars when splitting;
local sta=()
## we adopt some bool flags to handle redirections and assignments at the
## beginning of the command line, if any; we can simply drop redirections
## and assignments for sake of alias completion; for detail, read `SIMPLE
## COMMAND EXPANSION` in `man bash`;
## bool: check (outmost) redirection or assignment;
local check_redass=1
## bool: found (outmost) redirection or assignment in current word;
local found_redass=0
## examine each char of `str`; test branches are ordered; this order has
## two importances: first is to respect substring relationship (eg: `&&`
## must be tested before `&`); second is to test in optimistic order for
## speeding up the testing; the first importance is compulsory and takes
## precedence;
local i=0 j=0
for (( ; j < ${#str}; j++ )); do
if (( ${#sta[@]} == 0 )); then
if [[ "${str:j:1}" =~ [_a-zA-Z0-9] ]]; then
:
elif [[ $' \t\n' == *"${str:j:1}"* ]]; then
if (( i < j )); then
if (( $found_redass == 1 )); then
if (( $check_redass == 0 )); then
words+=( "${str:i:j-i}" )
fi
found_redass=0
else
## no redass in current word; stop checking;
check_redass=0
words+=( "${str:i:j-i}" )
fi
fi
(( i = j + 1 ))
elif [[ ":" == *"${str:j:1}"* ]]; then
if (( i < j )); then
if (( $found_redass == 1 )); then
if (( $check_redass == 0 )); then
words+=( "${str:i:j-i}" )
fi
found_redass=0
else
## no redass in current word; stop checking;
check_redass=0
words+=( "${str:i:j-i}" )
fi
fi
words+=( "${str:j:1}" )
(( i = j + 1 ))
elif [[ '$(' == "${str:j:2}" ]]; then
sta+=( ')' )
(( j++ ))
elif [[ '`' == "${str:j:1}" ]]; then
sta+=( '`' )
elif [[ '(' == "${str:j:1}" ]]; then
sta+=( ')' )
elif [[ '{' == "${str:j:1}" ]]; then
sta+=( '}' )
elif [[ '"' == "${str:j:1}" ]]; then
sta+=( '"' )
elif [[ "'" == "${str:j:1}" ]]; then
sta+=( "'" )
elif [[ '\ ' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\$' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\`' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\"' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\\' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ "\'" == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '&>' == "${str:j:2}" ]]; then
found_redass=1
(( j++ ))
elif [[ '>&' == "${str:j:2}" ]]; then
found_redass=1
(( j++ ))
elif [[ "><=" == *"${str:j:1}"* ]]; then
found_redass=1
elif [[ '&&' == "${str:j:2}" ]]; then
words=()
check_redass=1
(( i = j + 2 ))
elif [[ '||' == "${str:j:2}" ]]; then
words=()
check_redass=1
(( i = j + 2 ))
elif [[ '&' == "${str:j:1}" ]]; then
words=()
check_redass=1
(( i = j + 1 ))
elif [[ '|' == "${str:j:1}" ]]; then
words=()
check_redass=1
(( i = j + 1 ))
elif [[ ';' == "${str:j:1}" ]]; then
words=()
check_redass=1
(( i = j + 1 ))
fi
elif [[ "${sta[-1]}" == ')' ]]; then
if [[ ')' == "${str:j:1}" ]]; then
unset sta[-1]
elif [[ '$(' == "${str:j:2}" ]]; then
sta+=( ')' )
(( j++ ))
elif [[ '`' == "${str:j:1}" ]]; then
sta+=( '`' )
elif [[ '(' == "${str:j:1}" ]]; then
sta+=( ')' )
elif [[ '{' == "${str:j:1}" ]]; then
sta+=( '}' )
elif [[ '"' == "${str:j:1}" ]]; then
sta+=( '"' )
elif [[ "'" == "${str:j:1}" ]]; then
sta+=( "'" )
elif [[ '\ ' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\$' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\`' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\"' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\\' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ "\'" == "${str:j:2}" ]]; then
(( j++ ))
fi
elif [[ "${sta[-1]}" == '}' ]]; then
if [[ '}' == "${str:j:1}" ]]; then
unset sta[-1]
elif [[ '$(' == "${str:j:2}" ]]; then
sta+=( ')' )
(( j++ ))
elif [[ '`' == "${str:j:1}" ]]; then
sta+=( '`' )
elif [[ '(' == "${str:j:1}" ]]; then
sta+=( ')' )
elif [[ '{' == "${str:j:1}" ]]; then
sta+=( '}' )
elif [[ '"' == "${str:j:1}" ]]; then
sta+=( '"' )
elif [[ "'" == "${str:j:1}" ]]; then
sta+=( "'" )
elif [[ '\ ' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\$' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\`' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\"' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\\' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ "\'" == "${str:j:2}" ]]; then
(( j++ ))
fi
elif [[ "${sta[-1]}" == '`' ]]; then
if [[ '`' == "${str:j:1}" ]]; then
unset sta[-1]
elif [[ '$(' == "${str:j:2}" ]]; then
sta+=( ')' )
(( j++ ))
elif [[ '(' == "${str:j:1}" ]]; then
sta+=( ')' )
elif [[ '{' == "${str:j:1}" ]]; then
sta+=( '}' )
elif [[ '"' == "${str:j:1}" ]]; then
sta+=( '"' )
elif [[ "'" == "${str:j:1}" ]]; then
sta+=( "'" )
elif [[ '\ ' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\$' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\`' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\"' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\\' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ "\'" == "${str:j:2}" ]]; then
(( j++ ))
fi
elif [[ "${sta[-1]}" == "'" ]]; then
if [[ "'" == "${str:j:1}" ]]; then
unset sta[-1]
fi
elif [[ "${sta[-1]}" == '"' ]]; then
if [[ '"' == "${str:j:1}" ]]; then
unset sta[-1]
elif [[ '$(' == "${str:j:2}" ]]; then
sta+=( ')' )
(( j++ ))
elif [[ '`' == "${str:j:1}" ]]; then
sta+=( '`' )
elif [[ '\$' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\`' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\"' == "${str:j:2}" ]]; then
(( j++ ))
elif [[ '\\' == "${str:j:2}" ]]; then
(( j++ ))
fi
fi
done
## append the last word;
if (( i < j )); then
if (( $found_redass == 1 )); then
if (( $check_redass == 0 )); then
words+=( "${str:i:j-i}" )
fi
found_redass=0
else
## no redass in current word; stop checking;
check_redass=0
words+=( "${str:i:j-i}" )
fi
fi
## unset the temp stack;
unset sta
## return value;
__compal__retval=( "${words[@]}" )
}
## expand aliases in command line;
##
## $1
## : beg word index;
## $2
## : end word index;
## $3
## : ignored word index (can be null);
## $4
## : number of used aliases;
## ${@:4}
## : used aliases;
## $?
## : difference of `${#COMP_WORDS}` before and after expansion;
__compal__expand_alias() {
local beg="$1" end="$2" ignore="$3" n_used="$4"; shift 4
local used=( "${@:1:$n_used}" ); shift "$n_used"
if (( $beg == $end )) ; then
## case 1: range is empty;
__compal__retval=0
elif [[ -n "$ignore" ]] && (( $beg == $ignore )); then
## case 2: beg index is ignored; pass it;
__compal__expand_alias \
"$(( $beg + 1 ))" \
"$end" \
"$ignore" \
"${#used[@]}" \
"${used[@]}"
elif ! alias "${COMP_WORDS[$beg]}" &>/dev/null; then
## case 3: command is not an alias;
__compal__retval=0
elif ( __compal__inarr "${COMP_WORDS[$beg]}" "${used[@]}" ); then
## case 4: command is an used alias;
__compal__retval=0
else
## case 5: command is an unused alias;
## get alias name;
local cmd="${COMP_WORDS[$beg]}"
## get alias body;
local str0; str0="$(alias "$cmd")"
str0="$(echo "${str0#*=}" | command xargs)"
## split alias body into words;
__compal__split_cmd_line "$str0"
local words0=( "${__compal__retval[@]}" )
## rebuild alias body; we need this because function `_split_cmd_line`
## drops redirections and assignments, and only keeps the last command
## in the last pipeline, in `words0`; therefore `str0` is not a simple
## concat of `words0`; we rebuild this simple concat as `nstr0`; maybe
## it is easier to view `str0` as raw and `nstr0` as genuine;
local nstr0="${words0[*]}"
## find index range of word `$COMP_WORDS[$beg]` in string `$COMP_LINE`;
local i=0 j=0
for (( i = 0; i <= $beg; i++ )); do
for (( ; j <= ${#COMP_LINE}; j++ )); do
[[ "${COMP_LINE:j}" == "${COMP_WORDS[i]}"* ]] && break
done
(( i == $beg )) && break
(( j += ${#COMP_WORDS[i]} ))
done
## now `j` is at the beginning of word `$COMP_WORDS[$beg]`; and we know
## the index range is `[j, j+${#cmd})`;
## update `$COMP_LINE` and `$COMP_POINT`;
COMP_LINE="${COMP_LINE:0:j}${nstr0}${COMP_LINE:j+${#cmd}}"
if (( $COMP_POINT < j )); then
:
elif (( $COMP_POINT < j + ${#cmd} )); then
## set current cursor position to the end of replacement string;
(( COMP_POINT = j + ${#nstr0} ))
else
(( COMP_POINT += ${#nstr0} - ${#cmd} ))
fi
## update `$COMP_WORDS` and `$COMP_CWORD`;
COMP_WORDS=(
"${COMP_WORDS[@]:0:beg}"
"${words0[@]}"
"${COMP_WORDS[@]:beg+1}"
)
if (( $COMP_CWORD < $beg )); then
:
elif (( $COMP_CWORD < $beg + 1 )); then
## set current word index to the last of replacement words;
(( COMP_CWORD = $beg + ${#words0[@]} - 1 ))
else
(( COMP_CWORD += ${#words0[@]} - 1 ))
fi
## update `$ignore` if it is not empty; if so, we know `$ignore` is not
## equal to `$beg` because we checked that in case 2; we need to update
## `$ignore` only when `$ignore > $beg`; save this condition in a local
## var `$ignore_gt_beg` because we need it later;
if [[ -n "$ignore" ]]; then
local ignore_gt_beg=0
if (( $ignore > $beg )); then
ignore_gt_beg=1
(( ignore += ${#words0[@]} - 1 ))
fi
fi
## recursively expand part 0;
local used0=( "${used[@]}" "$cmd" )
__compal__expand_alias \
"$beg" \
"$(( $beg + ${#words0[@]} ))" \
"$ignore" \
"${#used0[@]}" \
"${used0[@]}"
local diff0="$__compal__retval"
## update `$ignore` if it is not empty and `$ignore_gt_beg` is true;
if [[ -n "$ignore" ]] && (( $ignore_gt_beg == 1 )); then
(( ignore += $diff0 ))
fi
## recursively expand part 1; must check `str0` not `nstr0`;
if [[ -n "$str0" ]] && [[ "${str0: -1}" == ' ' ]]; then
local used1=( "${used[@]}" )
__compal__expand_alias \
"$(( $beg + ${#words0[@]} + $diff0 ))" \
"$(( $end + ${#words0[@]} - 1 + $diff0 ))" \
"$ignore" \
"${#used1[@]}" \
"${used1[@]}"
local diff1="$__compal__retval"
else
local diff1=0
fi
## return value;
__compal__retval=$(( ${#words0[@]} - 1 + diff0 + diff1 ))
fi
}
## run a cspec using its args in argv fashion;
##
## despite as described in `man bash`, `complete -p` does not always print an
## existing completion in a way that can be reused as input; what complicates
## the matter here are quotes and escapes;
##
## as an example, when `complete -p` prints:
##
## $ complete -p
## complete -F _known_hosts "/tmp/aaa bbb"
##
## copy-paste running the above output gives wrong result:
##
## $ complete -F _known_hosts "/tmp/aaa bbb"
## $ complete -p
## complete -F _known_hosts /tmp/aaa bbb
##
## the correct command to give the same `complete -p` result is:
##
## $ complete -F _known_hosts '"/tmp/aaa bbb"'
## $ complete -p
## complete -F _known_hosts "/tmp/aaa bbb"
##
## to see another issue, this command gives a different result:
##
## $ complete -F _known_hosts '/tmp/aaa\ \ \ bbb'
## $ complete -p
## complete -F _known_hosts /tmp/aaa\ \ \ bbb
##
## note that these two `complete -p` results are *not* the same:
##
## complete -F _known_hosts "/tmp/aaa bbb"
## complete -F _known_hosts /tmp/aaa\ \ \ bbb
##
## despite this is true:
##
## [[ "/tmp/aaa bbb" == /tmp/aaa\ \ \ bbb ]]
##
## so we must parse the `complete -p` result and run parsed result;
##
## using `_split_cmd_line` to parse a cspec should be ok, because a cspec has
## only one command without redirections or assignments, also without command
## substitutions, etc.; we can then rerun this cspec in an argv fashion using
## this function;
##
## $@
## : cspec args;
__compal__run_cspec_args() {
local cspec_args=( "$@" )
## ensure this is indeed a cspec;
if [[ "${cspec_args[0]}" == "complete" ]]; then
## run parsed completion command;
"${cspec_args[@]}"
else
__compal__error "not a complete command: ${cspec_args[*]}"
fi
}
## the "auto" implementation of `_unmask_alias`;
##
## this function is called only when using auto unmask;
##
## $1
## : alias command;
__compal__unmask_alias_auto() {
local cmd="$1"
## load vanilla completion of this command;
local cspec="${__compal__vanilla_cspecs[$cmd]}"
if [[ -n "$cspec" ]]; then
## a vanilla cspec for this command is found; due to some issues with
## `complete -p` we cannot eval this cspec directly; instead, we need
## to parse and run it in argv fashion; see `_run_cspec_args` comment;
__compal__split_cmd_line "$cspec"
local cspec_args=( "${__compal__retval[@]}" )
__compal__run_cspec_args "${cspec_args[@]}"
else
## a (parsed) vanilla cspec for this command is not found; search raw
## vanilla cspecs for this command; if a matched raw vanilla cspec is
## found, then parse, save and run it; search is a loop because these
## raw cspecs are not parsed yet;
for _cspec in "${!__compal__raw_vanilla_cspecs[@]}"; do
if [[ "$_cspec" == *" $cmd" ]]; then
__compal__split_cmd_line "$_cspec"
local _cspec_args=( "${__compal__retval[@]}" )
## ensure this cspec has the correct command;
local _cspec_cmd="${_cspec_args[-1]}"
if [[ "$_cspec_cmd" == "$cmd" ]]; then
__compal__vanilla_cspecs["$_cspec_cmd"]="$_cspec"
unset __compal__raw_vanilla_cspecs["$_cspec"]
__compal__run_cspec_args "${_cspec_args[@]}"
return
fi
fi
done
## no vanilla cspec for this command is found; we remove the current
## cspec for this command (which should be `_complete_alias`), which
## effectively uses the default cspec (ie: `complete -D`) to process
## this command; we do not fallback to `_completion_loader`, because
## the default cspec could be something else, and here we want to be
## consistent;
complete -r "$cmd"
fi
}
## the "manual" implementation of `_unmask_alias`;
##
## this function is called only when using manual unmask;
##
## users may edit this function to customize vanilla command completions;
##
## $1
## : alias command;
__compal__unmask_alias_manual() {
local cmd="$1"
case "$cmd" in
bind)
complete -A binding "$cmd"
;;
help)
complete -A helptopic "$cmd"
;;
set)
complete -A setopt "$cmd"
;;
shopt)
complete -A shopt "$cmd"
;;
bg)
complete -A stopped -P '"%' -S '"' "$cmd"
;;
service)
complete -F _service "$cmd"
;;
unalias)
complete -a "$cmd"
;;
builtin)
complete -b "$cmd"
;;
command|type|which)
complete -c "$cmd"
;;
fg|jobs|disown)
complete -j -P '"%' -S '"' "$cmd"
;;
groups|slay|w|sux)
complete -u "$cmd"
;;
readonly|unset)
complete -v "$cmd"
;;
traceroute|traceroute6|tracepath|tracepath6|fping|fping6|telnet|rsh|\
rlogin|ftp|dig|mtr|ssh-installkeys|showmount)
complete -F _known_hosts "$cmd"
;;
aoss|command|do|else|eval|exec|ltrace|nice|nohup|padsp|then|time|\
tsocks|vsound|xargs)
complete -F _command "$cmd"
;;
fakeroot|gksu|gksudo|kdesudo|really)
complete -F _root_command "$cmd"
;;
a2ps|awk|base64|bash|bc|bison|cat|chroot|colordiff|cp|csplit|cut|date|\
df|diff|dir|du|enscript|env|expand|fmt|fold|gperf|grep|grub|head|\
irb|ld|ldd|less|ln|ls|m4|md5sum|mkdir|mkfifo|mknod|mv|netstat|nl|\
nm|objcopy|objdump|od|paste|pr|ptx|readelf|rm|rmdir|sed|seq|\
sha{,1,224,256,384,512}sum|shar|sort|split|strip|sum|tac|tail|tee|\
texindex|touch|tr|uname|unexpand|uniq|units|vdir|wc|who)
complete -F _longopt "$cmd"
;;
*)
_completion_loader "$cmd"
;;
esac
}
## set completion function of an alias command to the vanilla one;
##
## $1
## : alias command;
__compal__unmask_alias() {
local cmd="$1"
## ensure current completion function of this command is `_complete_alias`;
if [[ "$(complete -p "$cmd")" != *"-F _complete_alias"* ]]; then
__compal__error "cannot unmask alias command: $cmd"
return
fi
## decide which unmask function to call;
if (( "$COMPAL_AUTO_UNMASK" == 1 )); then
__compal__unmask_alias_auto "$@"
else
__compal__unmask_alias_manual "$@"
fi
}
## set completion function of an alias command to `_complete_alias`; doing so
## overwrites the original completion function for this command, if any; this
## makes `_complete_alias` look like a "mask" on the alias command; then, why
## is this function called a "remask"? because this function is always called
## in pair with (and after) a corresponding "unmask" function; the 1st "mask"
## happens when user directly runs `complete -F _complete_alias ...`;
##
## $1
## : alias command;
__compal__remask_alias() {
local cmd="$1"
complete -F _complete_alias "$cmd"
}
## delegate completion to `bash-completion`;
__compal__delegate() {
## `_command_offset` is a meta-command completion function provided by
## `bash-completion`; the documentation does not say it will work with
## argument `0`, but looking at its code (version 2.11) it should;
_command_offset 0
}
## delegate completion to `bash-completion`, within a transient context in
## which the input alias command is unmasked;
##
## this function expects current completion function of this command to be
## `_complete_alias`;
##
## $1
## : alias command to be unmasked;
__compal__delegate_in_context() {
local cmd="$1"
## unmask alias:
__compal__unmask_alias "$cmd"
## do actual completion;
__compal__delegate
## remask alias:
__compal__remask_alias "$cmd"
}
## save vanilla completions; run this function when this script is sourced;
## this ensures vanilla completions of alias commands are fetched and saved
## before they are overwritten by `complete -F _complete_alias`;
##
## this function saves raw cspecs and does not parse them; for other useful
## comments about parsing and running cspecs see function `_run_cspec_args`;
##
## running this function on source is mandatory only when using auto unmask;
## when using manual unmask, it is safe to skip this function on source;
__compal__save_vanilla_cspecs() {
## get default cspec;
local def_cspec; def_cspec="$(complete -p -D 2>/dev/null)"
## `complete -p` prints cspec for one command per line; so we can loop;
while IFS= read -r cspec; do
## skip default cspec;
[[ "$cspec" != "$def_cspec" ]] || continue
## skip `-F _complete_alias` cspecs;
[[ "$cspec" != *"-F _complete_alias"* ]] || continue
## now we have a vanilla cspec; save it in `_raw_vanilla_cspecs`;
__compal__raw_vanilla_cspecs["$cspec"]=""
done < <(complete -p 2>/dev/null)
}
## completion function for non-alias commands; normally, the mere invocation of
## this function indicates an error of command completion configuration because
## we are invoking `_complete_alias` on a non-alias command; but there can be a
## special case: `_command_offset` will try with command basename when there is
## no completion for the command itself; an example is `sudo /bin/ls` when both
## `sudo` and `ls` are aliases; this function takes care of this special case;
##
## $1
## : the name of the command whose arguments are being completed;
## $2
## : the word being completed;
## $3
## : the word preceding the word being completed on the current command line;
__compal__complete_non_alias() {
## get command name; must be non-alias;
local cmd="${COMP_WORDS[0]}"
## get command basename;
local compcmd="${cmd##*/}"
if alias "$compcmd" &>/dev/null; then
## if command basename is an alias, delegate completion;
__compal__delegate_in_context "$compcmd"
else
## else, this indicates an error;
__compal__error "command is not an alias: $cmd"
fi
}
## completion function for alias commands;
##
## $1
## : the name of the command whose arguments are being completed;
## $2
## : the word being completed;
## $3
## : the word preceding the word being completed on the current command line;
__compal__complete_alias() {
## get command name; must be alias;
local cmd="${COMP_WORDS[0]}"
## we expand aliases only for the original command line (ie: the command
## line on which user pressed `<tab>`); unfortunately, we may not have a
## chance to see the original command line, and we have no way to ensure
## that; we take an approximation: we expand aliases only in the outmost
## call of this function, which implies only on the first occasion of an
## alias command; we can ensure this condition using a refcnt and expand
## aliases iff the refcnt is equal to 0; this approximation always works
## correctly when the 1st word on the original command line is an alias;
##
## this approximation may fail when the 1st word on the original command
## line is not an alias; an example that expects files but gets ip addrs:
##
## $ unalias sudo
## $ complete -r sudo
## $ alias ls='ping'
## $ complete -F _complete_alias ls
## $ sudo ls <tab>
## {ip}
## {ip}
## {ip}
## ...
##
if (( __compal__refcnt == 0 )); then
## find index range of word `$COMP_WORDS[$COMP_CWORD]` in string
## `$COMP_LINE`; dont expand this word if `$COMP_POINT` (cursor
## position) lies in this range because the word may be incomplete;
local i=0 j=0
for (( ; i <= $COMP_CWORD; i++ )); do
for (( ; j <= ${#COMP_LINE}; j++ )); do
[[ "${COMP_LINE:j}" == "${COMP_WORDS[i]}"* ]] && break
done
(( i == $COMP_CWORD )) && break
(( j += ${#COMP_WORDS[i]} ))
done
## now `j` is at the beginning of word `$COMP_WORDS[$COMP_CWORD]`; and
## we know the index range is `[j, j+${#COMP_WORDS[$COMP_CWORD]}]`; we
## include the right endpoint to cover the case where cursor is at the
## exact end of the word; compare the index range with `$COMP_POINT`;
if (( j <= $COMP_POINT )) && \
(( $COMP_POINT <= j + ${#COMP_WORDS[$COMP_CWORD]} )); then
local ignore="$COMP_CWORD"
else
local ignore=""
fi
## expand aliases;
__compal__expand_alias 0 "${#COMP_WORDS[@]}" "$ignore" 0
fi
## increase refcnt;
(( __compal__refcnt++ ))
## delegate completion in context; this actually contains several steps:
##
## - unmask alias:
##
## since aliases have been fully expanded, no need to consider aliases
## in the resulting command line; therefore, we now set the completion
## function for this alias to the vanilla, alias-free one; this avoids
## infinite recursion when using self-aliases (eg: `alias ls='ls -a'`);
##
## - do actual completion:
##
## `_command_offset` is a meta-command completion function provided by
## `bash-completion`; the documentation does not say it will work with
## argument `0`, but looking at its code (version 2.11) it should;
##