fish-shell/tests/checks/complete.fish

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#RUN: %fish -C 'set -l fish %fish' %s
function complete_test_alpha1
echo $argv
end
complete -c complete_test_alpha1 --no-files -a '(commandline)'
complete -c complete_test_alpha2 --no-files -w 'complete_test_alpha1 extra1'
complete -c complete_test_alpha3 --no-files -w 'complete_test_alpha2 extra2'
complete -C'complete_test_alpha1 arg1 '
# CHECK: complete_test_alpha1 arg1
complete --escape -C'complete_test_alpha1 arg1 '
# CHECK: 'complete_test_alpha1 arg1 '
complete -C'complete_test_alpha2 arg2 '
# CHECK: complete_test_alpha1 extra1 arg2
complete -C'complete_test_alpha3 arg3 '
# CHECK: complete_test_alpha1 extra1 extra2 arg3
# Works even with the argument as a separate token.
complete -C 'complete_test_alpha3 arg3 '
# CHECK: complete_test_alpha1 extra1 extra2 arg3
alias myalias1 'complete_test_alpha1 arg1'
alias myalias2='complete_test_alpha1 arg2'
myalias1 call1
myalias2 call2
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# CHECK: arg1 call1
# CHECK: arg2 call2
complete -C'myalias1 call3 '
complete -C'myalias2 call3 '
# CHECK: complete_test_alpha1 arg1 call3
# CHECK: complete_test_alpha1 arg2 call3
# Ensure that commands can't wrap themselves - if this did,
# the completion would be executed a bunch of times.
function t --wraps t
echo t
end
complete -c t -fa '(t)'
complete -C't '
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# CHECK: t
# Ensure file completion happens even though it was disabled above.
complete -c t -l fileoption -rF
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# Only match one file because I don't want to touch this any time we add a test file.
complete -C't --fileoption ' | string match test.fish
# CHECK: test.fish
# See that an empty command gets files
complete -C'"" t' | string match test.fish
# CHECK: test.fish
# Make sure bare `complete` is reasonable,
complete -p '/complete test/beta1' -d 'desc, desc' -sZ
complete -c 'complete test beta2' -r -d 'desc \' desc2 [' -a 'foo bar'
complete -c complete_test_beta2 -x -n false -A -o test
complete
# CHECK: complete --no-files complete_test_alpha1 -a '(commandline)'
# CHECK: complete --no-files complete_test_alpha2
# CHECK: complete --no-files complete_test_alpha3
# CHECK: complete --force-files t -l fileoption
# CHECK: complete --no-files t -a '(t)'
# CHECK: complete -p '/complete test/beta1' -s Z -d 'desc, desc'
# CHECK: complete --require-parameter 'complete test beta2' -d "desc ' desc2 [" -a 'foo bar'
# CHECK: complete --exclusive complete_test_beta2 -o test -n false
# CHECK: complete {{.*}}
# CHECK: complete {{.*}}
# CHECK: complete {{.*}}
# CHECK: complete {{.*}}
# Recursive calls to complete (see #3474)
complete -c complete_test_recurse1 -xa '(echo recursing 1>&2; complete -C"complete_test_recurse1 ")'
LANG=C complete -C'complete_test_recurse1 '
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: recursing
# CHECKERR: error: completion reached maximum recursion depth, possible cycle?
# short options
complete -c foo -f -a non-option-argument
complete -c foo -f --short-option x
complete -c foo -f --short-option y -a ARGY
complete -c foo -f --short-option z -a ARGZ -r
complete -c foo -f --old-option single-long-ending-in-z
complete -c foo -f --old-option x-single-long
complete -c foo -f --old-option y-single-long
complete -c foo -f --old-option z-single-long
complete -c foo -f --long-option x-long -a ARGLONG
# Make sure that arguments of concatenated short options are expanded (#332)
complete -C'foo -xy'
# CHECK: -xyARGY
# CHECK: -xyz
# A required parameter means we don't want more short options.
complete -C'foo -yz'
# CHECK: -yzARGZ
# Required parameter with space: complete only the parameter (no non-option arguments).
complete -C'foo -xz '
# CHECK: ARGZ
# Optional parameter with space: complete only non-option arguments.
complete -C'foo -xy '
# CHECK: non-option-argument
complete -C'foo -single-long-ending-in-z'
# CHECK: -single-long-ending-in-z
complete -C'foo -single-long-ending-in-z '
# CHECK: non-option-argument
# CHECK: -x-single-long
complete -C'foo -x' | string match -- -x-single-long
# CHECK: -y-single-long
complete -C'foo -y' | string match -- -y-single-long
# This does NOT suggest -z-single-long, but will probably not occur in practise.
# CHECK: -zARGZ
complete -C'foo -z'
function foo2; end
complete -c foo2 -s s -l long -xa "hello-world goodbye-friend"
complete -C"foo2 -sfrie"
# CHECK: -sgoodbye-friend
complete -C"foo2 --long=frien"
# CHECK: --long=goodbye-friend
# Builtins (with subcommands; #2705)
complete -c complete_test_subcommand -n 'test (commandline -xp)[1] = complete_test_subcommand' -xa ok
complete -C'not complete_test_subcommand '
# CHECK: ok
complete -C'echo; and complete_test_subcommand '
# CHECK: ok
complete -C'or complete_test_subcommand '
# CHECK: ok
complete -C'echo && command complete_test_subcommand '
# CHECK: ok
complete -C'echo || exec complete_test_subcommand '
# CHECK: ok
complete -C'echo | builtin complete_test_subcommand '
# CHECK: ok
complete -C'echo & complete_test_subcommand '
# CHECK: ok
complete -C'if while begin begin complete_test_subcommand '
# CHECK: ok
complete -C'for _ in ' | string collect >&- && echo completed some files
# CHECK: completed some files
# function; #5415
complete -C'function : --arg'
# CHECK: --argument-names {{.*}}
complete -C'echo > /' | string length -q && echo ok
# CHECK: ok
function some_function
echo line1
echo line2
end
complete -c complete_test_function_desc -xa '(complete -Csome_function)'
complete -C'complete_test_function_desc ' | count
# CHECK: 1
complete -c prev-arg-variable -f
complete -C'prev-arg-variable $HOME '
# Regression test for issue #3129. In previous versions these statements would
# cause an `assert()` to fire thus killing the shell.
complete -c pkill -o ''
#CHECKERR: complete: -o requires a non-empty string
complete -c pkill -l ''
#CHECKERR: complete: -l requires a non-empty string
complete -c pkill -s ''
#CHECKERR: complete: -s requires a non-empty string
# Test that conditions that add or remove completions don't deadlock, etc.
# We actually encountered some case that was effectively like this (Issue 2 in github)
complete --command AAAA -l abcd --condition 'complete -c AAAA -l efgh'
echo "AAAA:"
complete -C'AAAA -' | sort
#CHECK: AAAA:
#CHECK: --abcd
echo "AAAA:"
complete -C'AAAA -' | sort
#CHECK: AAAA:
#CHECK: --abcd
#CHECK: --efgh
complete --command BBBB -l abcd --condition 'complete -e --command BBBB -l abcd'
echo "BBBB:"
complete -C'BBBB -'
#CHECK: BBBB:
#CHECK: --abcd
echo "BBBB:"
complete -C'BBBB -'
#CHECK: BBBB:
#CHECK:
# Test that erasing completions works correctly
echo
function sort
# GNU sort is really stupid, a non-C locale seems to make it assume --dictionary-order
# If I wanted --dictionary-order, I would have specified --dictionary-order!
env LC_ALL=C sort $argv
end
complete -c CCCC -l bar
complete -c CCCC -l baz
complete -c CCCC -o bar
complete -c CCCC -o foo
complete -c CCCC -s a
complete -c CCCC -s b
echo "CCCC:"
complete -C'CCCC -' | sort
complete -c CCCC -l bar -e
#CHECK: CCCC:
#CHECK: --bar
#CHECK: --baz
#CHECK: -a
#CHECK: -b
#CHECK: -bar
#CHECK: -foo
echo "CCCC:"
complete -C'CCCC -' | sort
complete -c CCCC -o foo -e
#CHECK: CCCC:
#CHECK: --baz
#CHECK: -a
#CHECK: -b
#CHECK: -bar
#CHECK: -foo
echo "CCCC:"
complete -C'CCCC -' | sort
complete -c CCCC -s a -e
#CHECK: CCCC:
#CHECK: --baz
#CHECK: -a
#CHECK: -b
#CHECK: -bar
echo "CCCC:"
complete -C'CCCC -' | sort
complete -c CCCC -e
#CHECK: CCCC:
#CHECK: --baz
#CHECK: -b
#CHECK: -bar
echo "CCCC:"
complete -C'CCCC -' | sort
#CHECK: CCCC:
echo "Test that -- suppresses option completions"
complete -c TestDoubleDash -l TestDoubleDashOption
complete -C'TestDoubleDash -' | sort
#CHECK: Test that -- suppresses option completions
#CHECK: --TestDoubleDashOption
echo "Expect no output:" (complete -C'TestDoubleDash -- -' | sort)
#CHECK: Expect no output:
# fish seems to have always handled "exclusive" options strangely
# It seems to treat them the same as "old-style" (single-dash) long options
echo "Testing exclusive options"
#CHECK: Testing exclusive options
complete -c TestExclusive -x -s Q
complete -c TestExclusive -x -s W
complete -c TestExclusive -s A
echo "Expect -A -Q -W:" (complete -C'TestExclusive -' | sort | string join ' ')
#CHECK: Expect -A -Q -W: -A -Q -W
echo "Expect -AQ -AW:" (complete -C'TestExclusive -A' | sort | string join ' ')
#CHECK: Expect -AQ -AW: -AQ -AW
echo "Expect no output 1:" (complete -C'TestExclusive -Q')
#CHECK: Expect no output 1:
echo "Expect no output 2:" (complete -C'TestExclusive -W')
#CHECK: Expect no output 2:
# Test for optional arguments, like cp's --backup
complete -c TestOptionalArgument -l backup -f -a 'none all simple'
echo "Expect --backup --backup=:" (complete -C'TestOptionalArgument -' | sort | string join ' ')
#CHECK: Expect --backup --backup=: --backup --backup=
echo "Expect --backup=all --backup=none --backup=simple:" (complete -C'TestOptionalArgument --backup=' | sort | string join ' ')
#CHECK: Expect --backup=all --backup=none --backup=simple: --backup=all --backup=none --backup=simple
# Test that directory completions work correctly
if begin
rm -rf test6.tmp.dir; and mkdir test6.tmp.dir
end
pushd test6.tmp.dir
# The "incorrect implicit cd from PATH" fails if mktemp returns an absolute path and
# `realpath --relative-to` is not available on macOS.
# set dir (realpath --relative-to="$PWD" (mktemp -d XXXXXXXX))
set dir (basename (mktemp -d XXXXXXXX))
mkdir -p $dir
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if complete -C$dir | string match -r "^$dir/.*dir" >/dev/null
echo "implicit cd complete works"
else
echo "no implicit cd complete"
end
#CHECK: implicit cd complete works
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if complete -C"command $dir" | string match -r "^$dir/.*dir" >/dev/null
echo "implicit cd complete after 'command'"
else
echo "no implicit cd complete after 'command'"
end
#CHECK: implicit cd complete after 'command'
popd
if begin
set -l PATH $PWD/test6.tmp.dir $PATH 2>/dev/null
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complete -C$dir | string match -r "^$dir/.*dir" >/dev/null
end
echo "incorrect implicit cd from PATH"
else
echo "PATH does not cause incorrect implicit cd"
end
#CHECK: PATH does not cause incorrect implicit cd
rm -rf test6.tmp.dir
else
echo "error: could not create temp environment" >&2
end
# Test command expansion with parened PATHs (#952)
begin
set -l parened_path $PWD/'test6.tmp2.(paren).dir'
set -l parened_subpath $parened_path/subdir
if not begin
rm -rf $parened_path
and mkdir $parened_path
and mkdir $parened_subpath
and ln -s /bin/ls $parened_path/'__test6_(paren)_command'
and ln -s /bin/ls $parened_subpath/'__test6_subdir_(paren)_command'
end
echo "error: could not create command expansion temp environment" >&2
end
# Verify that we can expand commands when PATH has parens
set -l PATH $parened_path $PATH
set -l completed (complete -C__test6_ | cut -f 1 -d \t)
if test "$completed" = '__test6_(paren)_command'
echo "Command completion with parened PATHs test passed"
else
echo "Command completion with parened PATHs test failed. Expected __test6_(paren)_command, got $completed" >&2
end
#CHECK: Command completion with parened PATHs test passed
# Verify that commands with intermediate slashes do NOT expand with respect to PATH
set -l completed (complete -Csubdir/__test6_subdir)
if test -z "$completed"
echo "Command completion with intermediate slashes passed"
else
echo "Command completion with intermediate slashes: should output nothing, instead got $completed" >&2
end
#CHECK: Command completion with intermediate slashes passed
rm -rf $parened_path
end
# This should only list the completions for `banana`
complete -c banana -a '1 2 3'
complete -c banana
#CHECK: complete banana -a '1 2 3'
# "-c" is optional
complete banana -a bar
complete banana
#CHECK: complete banana -a bar
#CHECK: complete banana -a '1 2 3'
# "-a" ain't
complete banana bar
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#CHECKERR: complete: too many arguments
#CHECKERR:
#CHECKERR: {{.*}}checks/complete.fish (line {{\d+}}):
#CHECKERR: complete banana bar
#CHECKERR: ^
#CHECKERR:
#CHECKERR: (Type 'help complete' for related documentation)
# Multiple commands can be specified, in that case "-c" (or "-p") is mandatory.
complete -c kapstachelbeere -c physalis -a arg
complete -c kapstachelbeere -c physalis
# CHECK: complete kapstachelbeere -a arg
# CHECK: complete physalis -a arg
set -l dir (mktemp -d)
echo >$dir/target
complete -C ': $dir/'
# CHECK: $dir/target
rm $dir/target
cd $dir
touch yummyinmytummy
complete -c fudge -f
complete -c fudge -n '__fish_seen_subcommand_from eat' -F
complete -C'fudge eat yummyin'
# CHECK: yummyinmytummy
complete -C"echo no commpletion inside comment # "
cd -
rm -r $dir
set -l dir (mktemp -d)
cd $dir
: >command-not-in-path
chmod +x command-not-in-path
complete -p $PWD/command-not-in-path -xa relative-path
complete -C './command-not-in-path '
# CHECK: relative-path
# Expand variables and tildes in command.
complete -C '$PWD/command-not-in-path '
# CHECK: relative-path
HOME=$PWD complete -C '~/command-not-in-path '
# CHECK: relative-path
# Non-canonical command path
mkdir -p subdir
: >subdir/command-in-subdir
chmod +x subdir/command-in-subdir
complete -p "$PWD/subdir/command-in-subdir" -xa custom-completions
complete -C './subdir/../subdir/command-in-subdir '
# CHECK: custom-completions
# Relative $PATH
begin
set -lx PATH subdir $PATH
complete -C 'command-in-subdir '
# CHECK: custom-completions
end
cd -
rm -r $dir
# Expand variables and tildes in command.
complete cat -xa +pet
set -l path_to_cat (command -v cat)
complete -C '$path_to_cat '
# CHECK: +pet
HOME=$path_to_cat/.. complete -C '~/cat '
# CHECK: +pet
# Do not expand command substitutions.
complete -C '(echo cat) ' | string match +pet
# Give up if we expand to multiple arguments (we'd need to handle the arguments).
complete -C '{cat,arg1,arg2} ' | string match +pet
# Don't expand wildcards though we could.
complete -C '$path_to_cat* ' | string match +pet
# Also expand wrap targets.
function crookshanks --wraps '$path_to_cat'
end
complete -C 'crookshanks '
# CHECK: +pet
# Custom completion works with variable overrides.
complete cmd_with_fancy_completion -xa '(commandline -xpc | count)'
complete -C"a=1 b=2 cmd_with_fancy_completion "
# CHECK: 1
complete -C"a=1 b=2 cmd_with_fancy_completion 1 "
# CHECK: 2
complete -c thing -x -F
# CHECKERR: complete: invalid option combination, '--exclusive' and '--force-files'
# Multiple conditions
complete -f -c shot
complete -fc shot -n 'test (count (commandline -xpc) -eq 1' -n 'test (commandline -xpc)[-1] = shot' -a 'through'
# CHECKERR: complete: -n 'test (count (commandline -xpc) -eq 1': Unexpected end of string, expecting ')'
# CHECKERR: test (count (commandline -xpc) -eq 1
# CHECKERR: ^
complete -fc shot -n 'test (count (commandline -xpc)) -eq 1' -n 'test (commandline -xpc)[-1] = shot' -a 'through'
complete -fc shot -n 'test (count (commandline -xpc)) -eq 2' -n 'test (commandline -xpc)[-1] = through' -a 'the'
complete -fc shot -n 'test (count (commandline -xpc)) -eq 3' -n 'test (commandline -xpc)[-1] = the' -a 'heart'
complete -fc shot -n 'test (count (commandline -xpc)) -eq 4' -n 'test (commandline -xpc)[-1] = heart' -a 'and'
complete -fc shot -n 'test (count (commandline -xpc)) -eq 5' -n 'test (commandline -xpc)[-1] = and' -a "you\'re"
complete -fc shot -n 'test (count (commandline -xpc)) -eq 6' -n 'test (commandline -xpc)[-1] = "you\'re"' -a 'to'
complete -fc shot -n 'test (count (commandline -xpc)) -eq 7' -n 'test (commandline -xpc)[-1] = to' -a 'blame'
complete -C"shot "
# CHECK: through
complete -C"shot through "
# CHECK: the
# See that conditions after a failing one aren't executed.
set -g oops 0
complete -fc oooops
complete -fc oooops -n true -n true -n true -n 'false' -n 'set -g oops 1' -a oops
complete -C'oooops '
echo $oops
# CHECK: 0
complete -fc oooops -n 'true' -n 'set -g oops 1' -a oops
complete -C'oooops '
# CHECK: oops
echo $oops
# CHECK: 1
# See that we load completions only if the command exists in $PATH,
# as a workaround for #3117.
# We need a completion script that runs the command,
# and prints something simple, and isn't already used above.
#
# Currently, tr fits the bill (it does `tr --version` to check for GNUisms)
begin
$fish -c "complete -C'tr -'" | string match -- '-d*'
# CHECK: -d{{\t.*}}
end
set -l tmpdir (mktemp -d)
cd $tmpdir
begin
touch tr
chmod +x tr
set -l PATH
complete -C'./tr -' | string match -- -d
or echo No match for relative
# CHECK: No match for relative
complete -c tr | string length -q
or echo Empty completions
# CHECK: Empty completions
end
rm -$f $tmpdir/*
# Leading dots are not completed for default file completion,
# but may be for custom command (e.g. git add).
function dotty
end
function notty
end
complete -c dotty --no-files -a '(echo .a*)'
touch .abc .def
complete -C'notty '
echo "Should be nothing"
# CHECK: Should be nothing
complete -C'dotty '
# CHECK: .abc
rm -r $tmpdir
complete -C'complete --command=mktemp' | string replace -rf '=mktemp\t.*' '=mktemp'
# (one "--command=" is okay, we used to get "--command=--command="
# CHECK: --command=mktemp
builtin commandline: -x for expanded tokens, supplanting -o Issue #10194 reports Cobra completions do set -l args (commandline -opc) eval $args[1] __complete $args[2..] (commandline -ct | string escape) The intent behind "eval" is to expand variables and tildes in "$args". Fair enough. Several of our own completions do the same, see the next commit. The problem with "commandline -o" + "eval" is that the former already removes quotes that are relevant for "eval". This becomes a problem if $args contains quoted () or {}, for example this command will wrongly execute a command substituion: git --work-tree='(launch-missiles)' <TAB> It is possible to escape the string the tokens before running eval, but then there will be no expansion of variables etc. The problem is that "commandline -o" only unescapes tokens so they end up in a weird state somewhere in-between what the user typed and the expanded version. Remove the need for "eval" by introducing "commandline -x" which expands things like variables and braces. This enables custom completion scripts to be aware of shell variables without eval, see the added test for completions to "make -C $var/some/dir ". This means that essentially all third party scripts should migrate from "commandline -o" to "commandline -x". For example set -l tokens if commandline -x >/dev/null 2>&1 set tokens (commandline -xpc) else set tokens (commandline -opc) end Since this is mainly used for completions, the expansion skips command substitutions. They are passed through as-is (instead of cancelling or expanding to nothing) to make custom completion scripts work reasonably well in the common case. Of course there are cases where we would want to expand command substitutions here, so I'm not sure.
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## Test token expansion in commandline -x
complete complete_make -f -a '(argparse C/directory= -- (commandline -xpc)[2..];
echo Completing targets in directory $_flag_C)'
var=path/to complete -C'complete_make -C "$var/build-directory" '
# CHECK: Completing targets in directory path/to/build-directory
var1=path complete -C'var2=to complete_make -C "$var1/$var2/other-build-directory" '
# CHECK: Completing targets in directory path/to/other-build-directory
complete complete_existing_argument -f -a '(commandline -xpc)[2..]'
var=a_value complete -C'complete_existing_argument "1 2" $var \'quoted (foo bar)\' unquoted(baz qux) '
# CHECK: 1 2
# CHECK: a_value
# CHECK: quoted (foo bar)
# CHECK: unquoted(baz qux)
complete complete_first_argument_and_count -f -a '(set -l args (commandline -xpc)[2..]
echo (count $args) arguments, first argument is $args[1])'
list=arg(seq 10) begin
complete -C'complete_first_argument_and_count $list$list '
# CHECK: 100 arguments, first argument is arg1arg1
complete -C'complete_first_argument_and_count $list$list$list '
# CHECK: 1 arguments, first argument is $list$list$list
end
## Test commandline --tokens-raw
complete complete_raw_tokens -f -ka '(commandline --tokens-raw)'
complete -C'complete_raw_tokens "foo" bar\\ baz (qux) '
# CHECK: complete_raw_tokens
# CHECK: "foo"
# CHECK: bar\ baz
# CHECK: (qux)
## Test deprecated commandline -o
complete complete_unescaped_tokens -f -ka '(commandline -o)'
complete -C'complete_unescaped_tokens "foo" bar\\ baz (qux) '
# CHECK: complete_unescaped_tokens
# CHECK: foo
# CHECK: bar baz
# CHECK: (qux)
## Fuzzy completion of options
complete complete_long_option -f -l some-long-option
complete -C'complete_long_option --slo'
# CHECK: --some-long-option
complete complete_long_option -f -o an-old-option
complete -C'complete_long_option -ao'
# CHECK: -an-old-option
# But only if the user typed a dash
complete -C'complete_long_option lo'
# Check that descriptions are correctly generated for commands.
# Override __fish_describe_command to prevent missing man pages or broken __fish_apropos on macOS
# from failing this test. (TODO: Test the latter separately.)
function __fish_describe_command
echo -e "whereis\twhere is it"
echo -e "whoami\twho am i"
echo -e "which\which is it"
end
test (count (complete -C"wh" | string match -rv "\tcommand|^while")) -gt 0 && echo "found" || echo "fail"
# CHECK: found
set -l commands check search show
complete -c testcommand -n "not __fish_seen_subcommand_from $commands" -a 'check\t"Check the frobnicator" search\t"Search for frobs" show\t"Show all frobs"'
complete -C'testcommand '
# CHECK: check{{\t}}Check the frobnicator
# CHECK: search{{\t}}Search for frobs
# CHECK: show{{\t}}Show all frobs