echo information when parsing and not parsing flags and argument - linux

#function: usage
#description: 1. parse command line arguments
# 2. for illegal usages, print usage message and exit 1
# 3. otherwise, communicate to main() what flags are set
function usage {
while getopts ":gn:" OPT; do
case $OPT in
g) ;;
n) name=$OPTARG;;
:) echo "$USAGE"
exit 1
;;
\?) echo "$USAGE"
exit 1
;;
*) echo "$USAGE"
exit 1
esac
done
shift $(($OPTIND + 1))
}
#function: main
#description: For Part 1:
# 1. use usage() to parse command line arguments
# 2. echo corresponding messages for each flag that is set
#
# For Part 2:
# Kill processes based on the case return by `usage`
function main {
# TODO change the condition so that this line prints when '-g' is set
usage()
if [ ! -z "g" ]; then
echo graceful kill is present
fi
# TODO change the condition so that this line prints when '-n' is set
if [ ! -z "n" ]; then
echo process name is present
fi
main $#
This is what I write so far, I want to have something like
./KillByName -g 24601
​graceful kill is present
or
./KillByName -g
​Usage: KillByName [-g] -n or KillByName [-g]
or
./KillByName -g -n bash
graceful kill is present
process name is present
essentially, if there is -g, then it shows it is gracefully killed, and with a name. If there is -n, then it says the name exits and with a name.
I found my script can print the message of whether graceful kill present or name present, but cannot print the mistake of $USAGE.
BTW: this is only for information of usage, not actually program of killing the program

First of all,
usage()
is not the way you call a function, It should've been
usage
But there is a problem with that, you're not passing any arguments to the function usage from main, so it should've been
usage "$#" # Double quotes to prevent word splitting
Though the term "graceful killing" is a paradox in itself, you could do something like
while getopts ":gn:" OPT; do
gracekill=0; //s
case $OPT in
g) gracekill=1;;
n) name=$OPTARG;;
:) echo "$USAGE"
exit 1
;;
\?) echo "$USAGE"
exit 1
;;
*) echo "$USAGE"
exit 1
esac
done
echo "$gracekill $name" # Mind double quotes
Then do this :
result=$(usage "$#")
if [ ${result:0:1} -eq '1' ]
then
#gracefully kill the application
kill -9 $( pgrep "${result:1}" )
else
#ruthlessly terminate it
kill -15 $( pgrep "${result:1}" )
fi
For more on ${var:offset:length} form, see [ param expansion ]
Notes : I assume that you're passing the process names to the function, if you're passing the process number, then you don't need the
pgpep ie kill -15 $( pgrep "${result:1}" ) will become kill -15 "${result:1}" and so.Goodluck!

Related

bash script options parser fails

I have a bashscript.sh that I $ chmod +x bashscript.sh and move it to $ mv bashscript.sh ~/.local/bin/ in order for it to be executable like a system command.
I'd like to be able to invoke it with
bashscript [<-w|-working|--working>[=|:]] <y|yes|n|no>
And return usage/help/error (call it whatever we want) if the call isn't respected.
To do so, I wrote this parsing part:
usage(){
echo "you're wrong."
exit 1
}
[[ $# -lt 1 ]] && usage
options=$(getopt -o y,n,h,w: -l yes,no,help,working: -- "$#")
set -- $options
while true; do
case "$1" in
-h|--help|*) usage
shift;;
y|yes)
#do something
shift;;
n|no)
#..
shift;;
-w|-working|--working)
shift;;
--) #this is just syntax
shift
break;;
esac
done
But when I test it doesn't work as intended*, would you know why/have a sample that handles my option possibilites?
*edit : I always trigger the usage display
edit 2 : removed the spaces around the "=" of options as #costaparas3 pointed out, thank you, still stuck to usage() though
Here are the issues I found:
Exit if there are no arguments
Set the options with options=$(... (no spaces)
-h|--help|*) matches everything so you have an infinite loop. You don't need to match on * as getopt will reuturn non-zero if it finds an invalid argument, and the match on -- is what usually terminates the loop.
getopt returns non-zero for invalid arguments so exit 1 then
Use -n|--no to specify short and long options
--working requires an argument but you only shift 1.
-working is not valid (with getopt). Use either -w or --working.
Here is corrected version:
#!/bin/bash
usage() {
echo "you're wrong."
exit $1
}
[ $# -lt 1 ] && usage
options=$(getopt -o y,n,h,w: -l yes,no,help,working: -- "$#")
[ $? -ne 0 ] && usage 1
# default values
yes=
working=
set -- $options
while :
do
case "$1" in
-h|--help)
usage
;;
-y|--yes)
yes=1
shift
;;
-n|--no)
yes=0 # or no=1
shift
;;
-w|--working)
working=$2
shift 2
;;
--)
break
;;
esac
done

How to run bash scripts in parallel

I have a series of 250 bash scripts which need to be executed in parallel. Each script utilizes approximately 1 core so I do not want to execute them all at the same time. I would like to run 10 scripts at the same time and whenever one finishes execute another script.
I recommend parallel, but I'm going to post this monstrosity for the benefit of having people pick it apart and tune it. :)
#! /bin/env bash
## TODO: this documentation block needs to be expanded.
use="
$0 <#procs> <cmdfile>
Pass the number of desired processes to prespawn as the 1st argument.
Pass the command file with the list of tasks you need done.
Command file format:
KEYSTRING:cmdlist
where KEYSTRING will be used as a unique logfile name
and cmdlist is the base command string to be run
KEYSTRING may not contain whitespace of any sort.
Other lines are not allowed, including blanks or comments.
"
die() { echo "$# $use" >&2; exit 1; }
case $# in
2) case "$1" in
*[^0-9]*) die "INVALID #procs '$1'" ;;
esac
declare -i primer="$1" # a countdown of how many processes to pre-spawn
cmdfile="$2"
[[ -r "$cmdfile" ]] || { die "$cmdfile not readable"; }
grep -v : "$cmdfile" || { die "$cmdfile has invalid lines"; }
declare -i lines=$( grep -c : $cmdfile)
if (( lines < primer ))
then die "Note - command lines in $cmdfile ($lines) fewer than requested process chains ($primer)"
fi ;;
*) die ;;
esac >&2
trap 'echo abort $0#$LINENO; use; exit 1' ERR # make sure any error is fatal
trap ': no-op to ignore' HUP # ignore hangups (built-in nohup without explicit i/o redirection)
spawn() {
IFS="$IFS:" read key cmd && [[ "${cmd:-}" ]] || return
echo "$(date) executing '$cmd'; c.f. $key.log" | tee "$key.log"
echo "# autogenerated by $0 $(date)
{ $cmd
spawn
} >> $key.log 2>&1 &
" >| $key.sh
. $key.sh
rm -f $key.sh
return 0
}
# create a command list based on those designators
declare chains=0
while (( primer-- )) # until we've filled the requested quota
do spawn # create a child process
done < $cmdfile

unix/linux shell (command) script [duplicate]

Say, I have a script that gets called with this line:
./myscript -vfd ./foo/bar/someFile -o /fizz/someOtherFile
or this one:
./myscript -v -f -d -o /fizz/someOtherFile ./foo/bar/someFile
What's the accepted way of parsing this such that in each case (or some combination of the two) $v, $f, and $d will all be set to true and $outFile will be equal to /fizz/someOtherFile?
Bash Space-Separated (e.g., --option argument)
cat >/tmp/demo-space-separated.sh <<'EOF'
#!/bin/bash
POSITIONAL_ARGS=()
while [[ $# -gt 0 ]]; do
case $1 in
-e|--extension)
EXTENSION="$2"
shift # past argument
shift # past value
;;
-s|--searchpath)
SEARCHPATH="$2"
shift # past argument
shift # past value
;;
--default)
DEFAULT=YES
shift # past argument
;;
-*|--*)
echo "Unknown option $1"
exit 1
;;
*)
POSITIONAL_ARGS+=("$1") # save positional arg
shift # past argument
;;
esac
done
set -- "${POSITIONAL_ARGS[#]}" # restore positional parameters
echo "FILE EXTENSION = ${EXTENSION}"
echo "SEARCH PATH = ${SEARCHPATH}"
echo "DEFAULT = ${DEFAULT}"
echo "Number files in SEARCH PATH with EXTENSION:" $(ls -1 "${SEARCHPATH}"/*."${EXTENSION}" | wc -l)
if [[ -n $1 ]]; then
echo "Last line of file specified as non-opt/last argument:"
tail -1 "$1"
fi
EOF
chmod +x /tmp/demo-space-separated.sh
/tmp/demo-space-separated.sh -e conf -s /etc /etc/hosts
Output from copy-pasting the block above
FILE EXTENSION = conf
SEARCH PATH = /etc
DEFAULT =
Number files in SEARCH PATH with EXTENSION: 14
Last line of file specified as non-opt/last argument:
#93.184.216.34 example.com
Usage
demo-space-separated.sh -e conf -s /etc /etc/hosts
Bash Equals-Separated (e.g., --option=argument)
cat >/tmp/demo-equals-separated.sh <<'EOF'
#!/bin/bash
for i in "$#"; do
case $i in
-e=*|--extension=*)
EXTENSION="${i#*=}"
shift # past argument=value
;;
-s=*|--searchpath=*)
SEARCHPATH="${i#*=}"
shift # past argument=value
;;
--default)
DEFAULT=YES
shift # past argument with no value
;;
-*|--*)
echo "Unknown option $i"
exit 1
;;
*)
;;
esac
done
echo "FILE EXTENSION = ${EXTENSION}"
echo "SEARCH PATH = ${SEARCHPATH}"
echo "DEFAULT = ${DEFAULT}"
echo "Number files in SEARCH PATH with EXTENSION:" $(ls -1 "${SEARCHPATH}"/*."${EXTENSION}" | wc -l)
if [[ -n $1 ]]; then
echo "Last line of file specified as non-opt/last argument:"
tail -1 $1
fi
EOF
chmod +x /tmp/demo-equals-separated.sh
/tmp/demo-equals-separated.sh -e=conf -s=/etc /etc/hosts
Output from copy-pasting the block above
FILE EXTENSION = conf
SEARCH PATH = /etc
DEFAULT =
Number files in SEARCH PATH with EXTENSION: 14
Last line of file specified as non-opt/last argument:
#93.184.216.34 example.com
Usage
demo-equals-separated.sh -e=conf -s=/etc /etc/hosts
To better understand ${i#*=} search for "Substring Removal" in this guide. It is functionally equivalent to `sed 's/[^=]*=//' <<< "$i"` which calls a needless subprocess or `echo "$i" | sed 's/[^=]*=//'` which calls two needless subprocesses.
Using bash with getopt[s]
getopt(1) limitations (older, relatively-recent getopt versions):
can't handle arguments that are empty strings
can't handle arguments with embedded whitespace
More recent getopt versions don't have these limitations. For more information, see these docs.
POSIX getopts
Additionally, the POSIX shell and others offer getopts which doen't have these limitations. I've included a simplistic getopts example.
cat >/tmp/demo-getopts.sh <<'EOF'
#!/bin/sh
# A POSIX variable
OPTIND=1 # Reset in case getopts has been used previously in the shell.
# Initialize our own variables:
output_file=""
verbose=0
while getopts "h?vf:" opt; do
case "$opt" in
h|\?)
show_help
exit 0
;;
v) verbose=1
;;
f) output_file=$OPTARG
;;
esac
done
shift $((OPTIND-1))
[ "${1:-}" = "--" ] && shift
echo "verbose=$verbose, output_file='$output_file', Leftovers: $#"
EOF
chmod +x /tmp/demo-getopts.sh
/tmp/demo-getopts.sh -vf /etc/hosts foo bar
Output from copy-pasting the block above
verbose=1, output_file='/etc/hosts', Leftovers: foo bar
Usage
demo-getopts.sh -vf /etc/hosts foo bar
The advantages of getopts are:
It's more portable, and will work in other shells like dash.
It can handle multiple single options like -vf filename in the typical Unix way, automatically.
The disadvantage of getopts is that it can only handle short options (-h, not --help) without additional code.
There is a getopts tutorial which explains what all of the syntax and variables mean. In bash, there is also help getopts, which might be informative.
No answer showcases enhanced getopt. And the top-voted answer is misleading: It either ignores -⁠vfd style short options (requested by the OP) or options after positional arguments (also requested by the OP); and it ignores parsing-errors. Instead:
Use enhanced getopt from util-linux or formerly GNU glibc.1
It works with getopt_long() the C function of GNU glibc.
no other solution on this page can do all this:
handles spaces, quoting characters and even binary in arguments2 (non-enhanced getopt can’t do this)
it can handle options at the end: script.sh -o outFile file1 file2 -v (getopts doesn’t do this)
allows =-style long options: script.sh --outfile=fileOut --infile fileIn (allowing both is lengthy if self parsing)
allows combined short options, e.g. -vfd (real work if self parsing)
allows touching option-arguments, e.g. -oOutfile or -vfdoOutfile
Is so old already3 that no GNU system is missing this (e.g. any Linux has it).
You can test for its existence with: getopt --test → return value 4.
Other getopt or shell-builtin getopts are of limited use.
The following calls
myscript -vfd ./foo/bar/someFile -o /fizz/someOtherFile
myscript -v -f -d -o/fizz/someOtherFile -- ./foo/bar/someFile
myscript --verbose --force --debug ./foo/bar/someFile -o/fizz/someOtherFile
myscript --output=/fizz/someOtherFile ./foo/bar/someFile -vfd
myscript ./foo/bar/someFile -df -v --output /fizz/someOtherFile
all return
verbose: y, force: y, debug: y, in: ./foo/bar/someFile, out: /fizz/someOtherFile
with the following myscript
#!/bin/bash
# More safety, by turning some bugs into errors.
# Without `errexit` you don’t need ! and can replace
# ${PIPESTATUS[0]} with a simple $?, but I prefer safety.
set -o errexit -o pipefail -o noclobber -o nounset
# -allow a command to fail with !’s side effect on errexit
# -use return value from ${PIPESTATUS[0]}, because ! hosed $?
! getopt --test > /dev/null
if [[ ${PIPESTATUS[0]} -ne 4 ]]; then
echo 'I’m sorry, `getopt --test` failed in this environment.'
exit 1
fi
# option --output/-o requires 1 argument
LONGOPTS=debug,force,output:,verbose
OPTIONS=dfo:v
# -regarding ! and PIPESTATUS see above
# -temporarily store output to be able to check for errors
# -activate quoting/enhanced mode (e.g. by writing out “--options”)
# -pass arguments only via -- "$#" to separate them correctly
! PARSED=$(getopt --options=$OPTIONS --longoptions=$LONGOPTS --name "$0" -- "$#")
if [[ ${PIPESTATUS[0]} -ne 0 ]]; then
# e.g. return value is 1
# then getopt has complained about wrong arguments to stdout
exit 2
fi
# read getopt’s output this way to handle the quoting right:
eval set -- "$PARSED"
d=n f=n v=n outFile=-
# now enjoy the options in order and nicely split until we see --
while true; do
case "$1" in
-d|--debug)
d=y
shift
;;
-f|--force)
f=y
shift
;;
-v|--verbose)
v=y
shift
;;
-o|--output)
outFile="$2"
shift 2
;;
--)
shift
break
;;
*)
echo "Programming error"
exit 3
;;
esac
done
# handle non-option arguments
if [[ $# -ne 1 ]]; then
echo "$0: A single input file is required."
exit 4
fi
echo "verbose: $v, force: $f, debug: $d, in: $1, out: $outFile"
1 enhanced getopt is available on most “bash-systems”, including Cygwin; on OS X try brew install gnu-getopt or sudo port install getopt
2 the POSIX exec() conventions have no reliable way to pass binary NULL in command line arguments; those bytes prematurely end the argument
3 first version released in 1997 or before (I only tracked it back to 1997)
deploy.sh
#!/bin/bash
while [[ "$#" -gt 0 ]]; do
case $1 in
-t|--target) target="$2"; shift ;;
-u|--uglify) uglify=1 ;;
*) echo "Unknown parameter passed: $1"; exit 1 ;;
esac
shift
done
echo "Where to deploy: $target"
echo "Should uglify : $uglify"
Usage:
./deploy.sh -t dev -u
# OR:
./deploy.sh --target dev --uglify
From digitalpeer.com with minor modifications:
Usage myscript.sh -p=my_prefix -s=dirname -l=libname
#!/bin/bash
for i in "$#"
do
case $i in
-p=*|--prefix=*)
PREFIX="${i#*=}"
;;
-s=*|--searchpath=*)
SEARCHPATH="${i#*=}"
;;
-l=*|--lib=*)
DIR="${i#*=}"
;;
--default)
DEFAULT=YES
;;
*)
# unknown option
;;
esac
done
echo PREFIX = ${PREFIX}
echo SEARCH PATH = ${SEARCHPATH}
echo DIRS = ${DIR}
echo DEFAULT = ${DEFAULT}
To better understand ${i#*=} search for "Substring Removal" in this guide. It is functionally equivalent to `sed 's/[^=]*=//' <<< "$i"` which calls a needless subprocess or `echo "$i" | sed 's/[^=]*=//'` which calls two needless subprocesses.
while [ "$#" -gt 0 ]; do
case "$1" in
-n) name="$2"; shift 2;;
-p) pidfile="$2"; shift 2;;
-l) logfile="$2"; shift 2;;
--name=*) name="${1#*=}"; shift 1;;
--pidfile=*) pidfile="${1#*=}"; shift 1;;
--logfile=*) logfile="${1#*=}"; shift 1;;
--name|--pidfile|--logfile) echo "$1 requires an argument" >&2; exit 1;;
-*) echo "unknown option: $1" >&2; exit 1;;
*) handle_argument "$1"; shift 1;;
esac
done
This solution:
handles -n arg and --name=arg
allows arguments at the end
shows sane errors if anything is misspelled
compatible, doesn't use bashisms
readable, doesn't require maintaining state in a loop
getopt()/getopts() is a good option. Copied from here:
The simple use of "getopt" is shown in this mini-script:
#!/bin/bash
echo "Before getopt"
for i
do
echo $i
done
args=`getopt abc:d $*`
set -- $args
echo "After getopt"
for i
do
echo "-->$i"
done
What we have said is that any of -a,
-b, -c or -d will be allowed, but that -c is followed by an argument (the "c:" says that).
If we call this "g" and try it out:
bash-2.05a$ ./g -abc foo
Before getopt
-abc
foo
After getopt
-->-a
-->-b
-->-c
-->foo
-->--
We start with two arguments, and
"getopt" breaks apart the options and
puts each in its own argument. It also
added "--".
I have found the matter to write portable parsing in scripts so frustrating that I have written Argbash - a FOSS code generator that can generate the arguments-parsing code for your script plus it has some nice features:
https://argbash.io
I used the earlier answers as a starting point to tidy up my old adhoc param parsing. I then refactored out the following template code. It handles both long and short params, using = or space separated arguments, as well as multiple short params grouped together. Finally it re-inserts any non-param arguments back into the $1,$2.. variables.
#!/usr/bin/env bash
# NOTICE: Uncomment if your script depends on bashisms.
#if [ -z "$BASH_VERSION" ]; then bash $0 $# ; exit $? ; fi
echo "Before"
for i ; do echo - $i ; done
# Code template for parsing command line parameters using only portable shell
# code, while handling both long and short params, handling '-f file' and
# '-f=file' style param data and also capturing non-parameters to be inserted
# back into the shell positional parameters.
while [ -n "$1" ]; do
# Copy so we can modify it (can't modify $1)
OPT="$1"
# Detect argument termination
if [ x"$OPT" = x"--" ]; then
shift
for OPT ; do
REMAINS="$REMAINS \"$OPT\""
done
break
fi
# Parse current opt
while [ x"$OPT" != x"-" ] ; do
case "$OPT" in
# Handle --flag=value opts like this
-c=* | --config=* )
CONFIGFILE="${OPT#*=}"
shift
;;
# and --flag value opts like this
-c* | --config )
CONFIGFILE="$2"
shift
;;
-f* | --force )
FORCE=true
;;
-r* | --retry )
RETRY=true
;;
# Anything unknown is recorded for later
* )
REMAINS="$REMAINS \"$OPT\""
break
;;
esac
# Check for multiple short options
# NOTICE: be sure to update this pattern to match valid options
NEXTOPT="${OPT#-[cfr]}" # try removing single short opt
if [ x"$OPT" != x"$NEXTOPT" ] ; then
OPT="-$NEXTOPT" # multiple short opts, keep going
else
break # long form, exit inner loop
fi
done
# Done with that param. move to next
shift
done
# Set the non-parameters back into the positional parameters ($1 $2 ..)
eval set -- $REMAINS
echo -e "After: \n configfile='$CONFIGFILE' \n force='$FORCE' \n retry='$RETRY' \n remains='$REMAINS'"
for i ; do echo - $i ; done
# As long as there is at least one more argument, keep looping
while [[ $# -gt 0 ]]; do
key="$1"
case "$key" in
# This is a flag type option. Will catch either -f or --foo
-f|--foo)
FOO=1
;;
# Also a flag type option. Will catch either -b or --bar
-b|--bar)
BAR=1
;;
# This is an arg value type option. Will catch -o value or --output-file value
-o|--output-file)
shift # past the key and to the value
OUTPUTFILE="$1"
;;
# This is an arg=value type option. Will catch -o=value or --output-file=value
-o=*|--output-file=*)
# No need to shift here since the value is part of the same string
OUTPUTFILE="${key#*=}"
;;
*)
# Do whatever you want with extra options
echo "Unknown option '$key'"
;;
esac
# Shift after checking all the cases to get the next option
shift
done
This allows you to have both space separated options/values, as well as equal defined values.
So you could run your script using:
./myscript --foo -b -o /fizz/file.txt
as well as:
./myscript -f --bar -o=/fizz/file.txt
and both should have the same end result.
PROS:
Allows for both -arg=value and -arg value
Works with any arg name that you can use in bash
Meaning -a or -arg or --arg or -a-r-g or whatever
Pure bash. No need to learn/use getopt or getopts
CONS:
Can't combine args
Meaning no -abc. You must do -a -b -c
This example shows how to use getopt and eval and HEREDOC and shift to handle short and long parameters with and without a required value that follows. Also the switch/case statement is concise and easy to follow.
#!/usr/bin/env bash
# usage function
function usage()
{
cat << HEREDOC
Usage: $progname [--num NUM] [--time TIME_STR] [--verbose] [--dry-run]
optional arguments:
-h, --help show this help message and exit
-n, --num NUM pass in a number
-t, --time TIME_STR pass in a time string
-v, --verbose increase the verbosity of the bash script
--dry-run do a dry run, dont change any files
HEREDOC
}
# initialize variables
progname=$(basename $0)
verbose=0
dryrun=0
num_str=
time_str=
# use getopt and store the output into $OPTS
# note the use of -o for the short options, --long for the long name options
# and a : for any option that takes a parameter
OPTS=$(getopt -o "hn:t:v" --long "help,num:,time:,verbose,dry-run" -n "$progname" -- "$#")
if [ $? != 0 ] ; then echo "Error in command line arguments." >&2 ; usage; exit 1 ; fi
eval set -- "$OPTS"
while true; do
# uncomment the next line to see how shift is working
# echo "\$1:\"$1\" \$2:\"$2\""
case "$1" in
-h | --help ) usage; exit; ;;
-n | --num ) num_str="$2"; shift 2 ;;
-t | --time ) time_str="$2"; shift 2 ;;
--dry-run ) dryrun=1; shift ;;
-v | --verbose ) verbose=$((verbose + 1)); shift ;;
-- ) shift; break ;;
* ) break ;;
esac
done
if (( $verbose > 0 )); then
# print out all the parameters we read in
cat <<EOM
num=$num_str
time=$time_str
verbose=$verbose
dryrun=$dryrun
EOM
fi
# The rest of your script below
The most significant lines of the script above are these:
OPTS=$(getopt -o "hn:t:v" --long "help,num:,time:,verbose,dry-run" -n "$progname" -- "$#")
if [ $? != 0 ] ; then echo "Error in command line arguments." >&2 ; exit 1 ; fi
eval set -- "$OPTS"
while true; do
case "$1" in
-h | --help ) usage; exit; ;;
-n | --num ) num_str="$2"; shift 2 ;;
-t | --time ) time_str="$2"; shift 2 ;;
--dry-run ) dryrun=1; shift ;;
-v | --verbose ) verbose=$((verbose + 1)); shift ;;
-- ) shift; break ;;
* ) break ;;
esac
done
Short, to the point, readable, and handles just about everything (IMHO).
Hope that helps someone.
Expanding on #bruno-bronosky's answer, I added a "preprocessor" to handle some common formatting:
Expands --longopt=val into --longopt val
Expands -xyz into -x -y -z
Supports -- to indicate the end of flags
Shows an error for unexpected options
Compact and easy-to-read options switch
#!/bin/bash
# Report usage
usage() {
echo "Usage:"
echo "$(basename "$0") [options] [--] [file1, ...]"
}
invalid() {
echo "ERROR: Unrecognized argument: $1" >&2
usage
exit 1
}
# Pre-process options to:
# - expand -xyz into -x -y -z
# - expand --longopt=arg into --longopt arg
ARGV=()
END_OF_OPT=
while [[ $# -gt 0 ]]; do
arg="$1"; shift
case "${END_OF_OPT}${arg}" in
--) ARGV+=("$arg"); END_OF_OPT=1 ;;
--*=*)ARGV+=("${arg%%=*}" "${arg#*=}") ;;
--*) ARGV+=("$arg") ;;
-*) for i in $(seq 2 ${#arg}); do ARGV+=("-${arg:i-1:1}"); done ;;
*) ARGV+=("$arg") ;;
esac
done
# Apply pre-processed options
set -- "${ARGV[#]}"
# Parse options
END_OF_OPT=
POSITIONAL=()
while [[ $# -gt 0 ]]; do
case "${END_OF_OPT}${1}" in
-h|--help) usage; exit 0 ;;
-p|--password) shift; PASSWORD="$1" ;;
-u|--username) shift; USERNAME="$1" ;;
-n|--name) shift; names+=("$1") ;;
-q|--quiet) QUIET=1 ;;
-C|--copy) COPY=1 ;;
-N|--notify) NOTIFY=1 ;;
--stdin) READ_STDIN=1 ;;
--) END_OF_OPT=1 ;;
-*) invalid "$1" ;;
*) POSITIONAL+=("$1") ;;
esac
shift
done
# Restore positional parameters
set -- "${POSITIONAL[#]}"
ASAP: Another Shell Argument Parser
Edit note: version 2.0, now with pure POSIX shell code and zero witchery!
TL;DR
This parser uses only POSIX compliant shell code to process options in these formats: -o [ARG], -abo [ARG], --opt [ARG] or --opt=[ARG], where ARG is an optional argument. It can handle intermixed options and arguments, and also "--" to force any argument after it to be treated as positional.
Here is a minimal version that works as long as the command is correct, i.e. it doesn't perform almost any checks. You can paste it at the top of your sh script —it won't work as a function— and substitute your option definitions.
#!/bin/sh -e
USAGE="Usage: ${CMD=${0##*/}} [(-v|--verbose)] [--name=TEXT] [(-o|--output) FILE] [ARGS...]"
exit2 () { printf >&2 "%s: %s: '%s'\n%s\n" "$CMD" "$1" "$2" "$USAGE"; exit 2; }
check () { { [ "$1" != "$EOL" ] && [ "$1" != '--' ]; } || exit2 "missing argument" "$2"; } # avoid infinite loop
# parse command-line options
set -- "$#" "${EOL:=$(printf '\1\3\3\7')}" # end-of-list marker
while [ "$1" != "$EOL" ]; do
opt="$1"; shift
case "$opt" in
#EDIT HERE: defined options
--name ) check "$1" "$opt"; opt_name="$1"; shift;;
-o | --output ) check "$1" "$opt"; opt_output="$1"; shift;;
-v | --verbose ) opt_verbose='true';;
-h | --help ) printf "%s\n" "$USAGE"; exit 0;;
# process special cases
--) while [ "$1" != "$EOL" ]; do set -- "$#" "$1"; shift; done;; # parse remaining as positional
--[!=]*=*) set -- "${opt%%=*}" "${opt#*=}" "$#";; # "--opt=arg" -> "--opt" "arg"
-[A-Za-z0-9] | -*[!A-Za-z0-9]*) exit2 "invalid option" "$opt";; # anything invalid like '-*'
-?*) other="${opt#-?}"; set -- "${opt%$other}" "-${other}" "$#";; # "-abc" -> "-a" "-bc"
*) set -- "$#" "$opt";; # positional, rotate to the end
esac
done; shift # $EOL
unset CMD EOL USAGE opt other
unset -f check exit2
printf "name = '%s'\noutput = '%s'\nverbose = '%s'\n\$# = (%s)\n" "$opt_name" "$opt_output" "$opt_verbose" "$*"
Sample outputs
$ ./asap-example.sh -vo path/to/camelot 'spam?' --name=Arthur 'spam!' -- +42 -17
name = 'Arthur'
output = 'path/to/camelot'
verbose = 'true'
$# = (spam? spam! +42 -17)
$ ./asap-example.sh -name Lancelot eggs bacon
asap-example.sh: invalid option: '-n'
Usage: asap-example.sh [(-v|--verbose)] [--name=TEXT] [(-o|--output) FILE] [ARG...]
Description
I was inspired by the relatively simple answer by #bronson and tempted to try to improve it (without adding too much complexity).
This parser implementation uses pattern matching, parameter expansion and the shell's own positional parameters as a rotating stack to loop over and process arguments. Here's the result:
Any of the -o [ARG], -abo [ARG], --long-option [ARG] and --long-option=[ARG] styles of options are accepted;
Arguments may occur in any order, only positional ones are left in $# after the loop;
Use -- to force remaining arguments to be treated as positional;
Portable, compact, quite readable, with independent features;
Doesn't depend on getopt(s) or external utilities;
Detects invalid options and missing arguments.
Portability
This code was tested and verified to work with a reasonably recent version of: BusyBox's ash, bash, dash, mksh, ksh93, yash and zsh (called with their standard executable path, not as /bin/sh).
PS: I know... An argument with the binary value 0x01030307 could break the logic. But, if anyone passes such an argument in a command-line, they deserve it.
If you are making scripts that are interchangeable with other utilities, below flexibility may be useful.
Either:
command -x=myfilename.ext --another_switch
Or:
command -x myfilename.ext --another_switch
Here is the code:
STD_IN=0
prefix=""
key=""
value=""
for keyValue in "$#"
do
case "${prefix}${keyValue}" in
-i=*|--input_filename=*) key="-i"; value="${keyValue#*=}";;
-ss=*|--seek_from=*) key="-ss"; value="${keyValue#*=}";;
-t=*|--play_seconds=*) key="-t"; value="${keyValue#*=}";;
-|--stdin) key="-"; value=1;;
*) value=$keyValue;;
esac
case $key in
-i) MOVIE=$(resolveMovie "${value}"); prefix=""; key="";;
-ss) SEEK_FROM="${value}"; prefix=""; key="";;
-t) PLAY_SECONDS="${value}"; prefix=""; key="";;
-) STD_IN=${value}; prefix=""; key="";;
*) prefix="${keyValue}=";;
esac
done
I think this one is simple enough to use:
#!/bin/bash
#
readopt='getopts $opts opt;rc=$?;[ "$rc$opt" = "0?" ]&&exit 1;[ $rc = 0 ]||{ shift $[OPTIND-1];false; }'
opts=vfdo:
# Enumerating options
while eval "$readopt"
do
echo OPT:$opt ${OPTARG+OPTARG:$OPTARG}
done
# Enumerating arguments
for arg
do
echo ARG:$arg
done
Invocation example:
./myscript -v -do /fizz/someOtherFile -f ./foo/bar/someFile
OPT:v
OPT:d
OPT:o OPTARG:/fizz/someOtherFile
OPT:f
ARG:./foo/bar/someFile
I give you The Function parse_params that will parse params from the command line.
It is a pure Bash solution, no additional utilities.
Does not pollute global scope.
Effortlessly returns you simple to use variables, that you could build further logic on.
Amount of dashes before params does not matter (--all equals -all equals all=all)
The script below is a copy-paste working demonstration. See show_use function to understand how to use parse_params.
Limitations:
Does not support space delimited params (-d 1)
Param names will lose dashes so --any-param and -anyparam are equivalent
eval $(parse_params "$#") must be used inside bash function (it will not work in the global scope)
#!/bin/bash
# Universal Bash parameter parsing
# Parse equal sign separated params into named local variables
# Standalone named parameter value will equal its param name (--force creates variable $force=="force")
# Parses multi-valued named params into an array (--path=path1 --path=path2 creates ${path[*]} array)
# Puts un-named params as-is into ${ARGV[*]} array
# Additionally puts all named params as-is into ${ARGN[*]} array
# Additionally puts all standalone "option" params as-is into ${ARGO[*]} array
# #author Oleksii Chekulaiev
# #version v1.4.1 (Jul-27-2018)
parse_params ()
{
local existing_named
local ARGV=() # un-named params
local ARGN=() # named params
local ARGO=() # options (--params)
echo "local ARGV=(); local ARGN=(); local ARGO=();"
while [[ "$1" != "" ]]; do
# Escape asterisk to prevent bash asterisk expansion, and quotes to prevent string breakage
_escaped=${1/\*/\'\"*\"\'}
_escaped=${_escaped//\'/\\\'}
_escaped=${_escaped//\"/\\\"}
# If equals delimited named parameter
nonspace="[^[:space:]]"
if [[ "$1" =~ ^${nonspace}${nonspace}*=..* ]]; then
# Add to named parameters array
echo "ARGN+=('$_escaped');"
# key is part before first =
local _key=$(echo "$1" | cut -d = -f 1)
# Just add as non-named when key is empty or contains space
if [[ "$_key" == "" || "$_key" =~ " " ]]; then
echo "ARGV+=('$_escaped');"
shift
continue
fi
# val is everything after key and = (protect from param==value error)
local _val="${1/$_key=}"
# remove dashes from key name
_key=${_key//\-}
# skip when key is empty
# search for existing parameter name
if (echo "$existing_named" | grep "\b$_key\b" >/dev/null); then
# if name already exists then it's a multi-value named parameter
# re-declare it as an array if needed
if ! (declare -p _key 2> /dev/null | grep -q 'declare \-a'); then
echo "$_key=(\"\$$_key\");"
fi
# append new value
echo "$_key+=('$_val');"
else
# single-value named parameter
echo "local $_key='$_val';"
existing_named=" $_key"
fi
# If standalone named parameter
elif [[ "$1" =~ ^\-${nonspace}+ ]]; then
# remove dashes
local _key=${1//\-}
# Just add as non-named when key is empty or contains space
if [[ "$_key" == "" || "$_key" =~ " " ]]; then
echo "ARGV+=('$_escaped');"
shift
continue
fi
# Add to options array
echo "ARGO+=('$_escaped');"
echo "local $_key=\"$_key\";"
# non-named parameter
else
# Escape asterisk to prevent bash asterisk expansion
_escaped=${1/\*/\'\"*\"\'}
echo "ARGV+=('$_escaped');"
fi
shift
done
}
#--------------------------- DEMO OF THE USAGE -------------------------------
show_use ()
{
eval $(parse_params "$#")
# --
echo "${ARGV[0]}" # print first unnamed param
echo "${ARGV[1]}" # print second unnamed param
echo "${ARGN[0]}" # print first named param
echo "${ARG0[0]}" # print first option param (--force)
echo "$anyparam" # print --anyparam value
echo "$k" # print k=5 value
echo "${multivalue[0]}" # print first value of multi-value
echo "${multivalue[1]}" # print second value of multi-value
[[ "$force" == "force" ]] && echo "\$force is set so let the force be with you"
}
show_use "param 1" --anyparam="my value" param2 k=5 --force --multi-value=test1 --multi-value=test2
getopts works great if #1 you have it installed and #2 you intend to run it on the same platform. OSX and Linux (for example) behave differently in this respect.
Here is a (non getopts) solution that supports equals, non-equals, and boolean flags. For example you could run your script in this way:
./script --arg1=value1 --arg2 value2 --shouldClean
# parse the arguments.
COUNTER=0
ARGS=("$#")
while [ $COUNTER -lt $# ]
do
arg=${ARGS[$COUNTER]}
let COUNTER=COUNTER+1
nextArg=${ARGS[$COUNTER]}
if [[ $skipNext -eq 1 ]]; then
echo "Skipping"
skipNext=0
continue
fi
argKey=""
argVal=""
if [[ "$arg" =~ ^\- ]]; then
# if the format is: -key=value
if [[ "$arg" =~ \= ]]; then
argVal=$(echo "$arg" | cut -d'=' -f2)
argKey=$(echo "$arg" | cut -d'=' -f1)
skipNext=0
# if the format is: -key value
elif [[ ! "$nextArg" =~ ^\- ]]; then
argKey="$arg"
argVal="$nextArg"
skipNext=1
# if the format is: -key (a boolean flag)
elif [[ "$nextArg" =~ ^\- ]] || [[ -z "$nextArg" ]]; then
argKey="$arg"
argVal=""
skipNext=0
fi
# if the format has not flag, just a value.
else
argKey=""
argVal="$arg"
skipNext=0
fi
case "$argKey" in
--source-scmurl)
SOURCE_URL="$argVal"
;;
--dest-scmurl)
DEST_URL="$argVal"
;;
--version-num)
VERSION_NUM="$argVal"
;;
-c|--clean)
CLEAN_BEFORE_START="1"
;;
-h|--help|-help|--h)
showUsage
exit
;;
esac
done
Yet another option parser (generator)
An elegant option parser for shell scripts (full support for all POSIX shells)
https://github.com/ko1nksm/getoptions (Update: v3.3.0 released on 2021-05-02)
getoptions is a new option parser (generator) written in POSIX-compliant shell script and released in august 2020. It is for those who want to support the POSIX / GNU style option syntax in your shell scripts.
The supported syntaxes are -a, +a, -abc, -vvv, -p VALUE, -pVALUE, --flag, --no-flag, --with-flag, --without-flag, --param VALUE, --param=VALUE, --option[=VALUE], --no-option --.
It supports subcommands, validation, abbreviated options, and automatic help generation. And works with all POSIX shells (dash 0.5.4+, bash 2.03+, ksh88+, mksh R28+, zsh 3.1.9+, yash 2.29+, busybox ash 1.1.3+, etc).
#!/bin/sh
VERSION="0.1"
parser_definition() {
setup REST help:usage -- "Usage: example.sh [options]... [arguments]..." ''
msg -- 'Options:'
flag FLAG -f --flag -- "takes no arguments"
param PARAM -p --param -- "takes one argument"
option OPTION -o --option on:"default" -- "takes one optional argument"
disp :usage -h --help
disp VERSION --version
}
eval "$(getoptions parser_definition) exit 1"
echo "FLAG: $FLAG, PARAM: $PARAM, OPTION: $OPTION"
printf '%s\n' "$#" # rest arguments
It's parses the following arguments:
example.sh -f --flag -p VALUE --param VALUE -o --option -oVALUE --option=VALUE 1 2 3
And automatic help generation.
$ example.sh --help
Usage: example.sh [options]... [arguments]...
Options:
-f, --flag takes no arguments
-p, --param PARAM takes one argument
-o, --option[=OPTION] takes one optional argument
-h, --help
--version
It is also an option parser generator, generates the following simple option parsing code. If you use the generated code, you won't need getoptions. Achieve true portability and zero dependency.
FLAG=''
PARAM=''
OPTION=''
REST=''
getoptions_parse() {
OPTIND=$(($#+1))
while OPTARG= && [ $# -gt 0 ]; do
case $1 in
--?*=*) OPTARG=$1; shift
eval 'set -- "${OPTARG%%\=*}" "${OPTARG#*\=}"' ${1+'"$#"'}
;;
--no-*|--without-*) unset OPTARG ;;
-[po]?*) OPTARG=$1; shift
eval 'set -- "${OPTARG%"${OPTARG#??}"}" "${OPTARG#??}"' ${1+'"$#"'}
;;
-[fh]?*) OPTARG=$1; shift
eval 'set -- "${OPTARG%"${OPTARG#??}"}" -"${OPTARG#??}"' ${1+'"$#"'}
OPTARG= ;;
esac
case $1 in
'-f'|'--flag')
[ "${OPTARG:-}" ] && OPTARG=${OPTARG#*\=} && set "noarg" "$1" && break
eval '[ ${OPTARG+x} ] &&:' && OPTARG='1' || OPTARG=''
FLAG="$OPTARG"
;;
'-p'|'--param')
[ $# -le 1 ] && set "required" "$1" && break
OPTARG=$2
PARAM="$OPTARG"
shift ;;
'-o'|'--option')
set -- "$1" "$#"
[ ${OPTARG+x} ] && {
case $1 in --no-*|--without-*) set "noarg" "${1%%\=*}"; break; esac
[ "${OPTARG:-}" ] && { shift; OPTARG=$2; } || OPTARG='default'
} || OPTARG=''
OPTION="$OPTARG"
shift ;;
'-h'|'--help')
usage
exit 0 ;;
'--version')
echo "${VERSION}"
exit 0 ;;
--)
shift
while [ $# -gt 0 ]; do
REST="${REST} \"\${$(($OPTIND-$#))}\""
shift
done
break ;;
[-]?*) set "unknown" "$1"; break ;;
*)
REST="${REST} \"\${$(($OPTIND-$#))}\""
esac
shift
done
[ $# -eq 0 ] && { OPTIND=1; unset OPTARG; return 0; }
case $1 in
unknown) set "Unrecognized option: $2" "$#" ;;
noarg) set "Does not allow an argument: $2" "$#" ;;
required) set "Requires an argument: $2" "$#" ;;
pattern:*) set "Does not match the pattern (${1#*:}): $2" "$#" ;;
notcmd) set "Not a command: $2" "$#" ;;
*) set "Validation error ($1): $2" "$#"
esac
echo "$1" >&2
exit 1
}
usage() {
cat<<'GETOPTIONSHERE'
Usage: example.sh [options]... [arguments]...
Options:
-f, --flag takes no arguments
-p, --param PARAM takes one argument
-o, --option[=OPTION] takes one optional argument
-h, --help
--version
GETOPTIONSHERE
}
I wanna submit my project : https://github.com/flyingangel/argparser
source argparser.sh
parse_args "$#"
Simple as that. The environment will be populated with variables with the same name as the arguments
This is how I do in a function to avoid breaking getopts run at the same time somewhere higher in stack:
function waitForWeb () {
local OPTIND=1 OPTARG OPTION
local host=localhost port=8080 proto=http
while getopts "h:p:r:" OPTION; do
case "$OPTION" in
h)
host="$OPTARG"
;;
p)
port="$OPTARG"
;;
r)
proto="$OPTARG"
;;
esac
done
...
}
I'd like to offer my version of option parsing, that allows for the following:
-s p1
--stage p1
-w somefolder
--workfolder somefolder
-sw p1 somefolder
-e=hello
Also allows for this (could be unwanted):
-s--workfolder p1 somefolder
-se=hello p1
-swe=hello p1 somefolder
You have to decide before use if = is to be used on an option or not. This is to keep the code clean(ish).
while [[ $# > 0 ]]
do
key="$1"
while [[ ${key+x} ]]
do
case $key in
-s*|--stage)
STAGE="$2"
shift # option has parameter
;;
-w*|--workfolder)
workfolder="$2"
shift # option has parameter
;;
-e=*)
EXAMPLE="${key#*=}"
break # option has been fully handled
;;
*)
# unknown option
echo Unknown option: $key #1>&2
exit 10 # either this: my preferred way to handle unknown options
break # or this: do this to signal the option has been handled (if exit isn't used)
;;
esac
# prepare for next option in this key, if any
[[ "$key" = -? || "$key" == --* ]] && unset key || key="${key/#-?/-}"
done
shift # option(s) fully processed, proceed to next input argument
done
There are several ways to parse cmdline args (e.g. GNU getopt (not portable) vs BSD (MacOS) getopt vs getopts) - all problematic. This solution
is portable!
has zero dependencies, only relies on bash built-ins
allows for both short and long options
handles whitespace or simultaneously the use of = separator between option and argument
supports concatenated short option style -vxf
handles option with optional arguments (E.g. --color vs --color=always),
correctly detects and reports unknown options
supports -- to signal end of options, and
doesn't require code bloat compared with alternatives for the same feature set. I.e. succinct, and therefore easier to maintain
Examples: Any of
# flag
-f
--foo
# option with required argument
-b"Hello World"
-b "Hello World"
--bar "Hello World"
--bar="Hello World"
# option with optional argument
--baz
--baz="Optional Hello"
#!/usr/bin/env bash
usage() {
cat - >&2 <<EOF
NAME
program-name.sh - Brief description
SYNOPSIS
program-name.sh [-h|--help]
program-name.sh [-f|--foo]
[-b|--bar <arg>]
[--baz[=<arg>]]
[--]
FILE ...
REQUIRED ARGUMENTS
FILE ...
input files
OPTIONS
-h, --help
Prints this and exits
-f, --foo
A flag option
-b, --bar <arg>
Option requiring an argument <arg>
--baz[=<arg>]
Option that has an optional argument <arg>. If <arg>
is not specified, defaults to 'DEFAULT'
--
Specify end of options; useful if the first non option
argument starts with a hyphen
EOF
}
fatal() {
for i; do
echo -e "${i}" >&2
done
exit 1
}
# For long option processing
next_arg() {
if [[ $OPTARG == *=* ]]; then
# for cases like '--opt=arg'
OPTARG="${OPTARG#*=}"
else
# for cases like '--opt arg'
OPTARG="${args[$OPTIND]}"
OPTIND=$((OPTIND + 1))
fi
}
# ':' means preceding option character expects one argument, except
# first ':' which make getopts run in silent mode. We handle errors with
# wildcard case catch. Long options are considered as the '-' character
optspec=":hfb:-:"
args=("" "$#") # dummy first element so $1 and $args[1] are aligned
while getopts "$optspec" optchar; do
case "$optchar" in
h) usage; exit 0 ;;
f) foo=1 ;;
b) bar="$OPTARG" ;;
-) # long option processing
case "$OPTARG" in
help)
usage; exit 0 ;;
foo)
foo=1 ;;
bar|bar=*) next_arg
bar="$OPTARG" ;;
baz)
baz=DEFAULT ;;
baz=*) next_arg
baz="$OPTARG" ;;
-) break ;;
*) fatal "Unknown option '--${OPTARG}'" "see '${0} --help' for usage" ;;
esac
;;
*) fatal "Unknown option: '-${OPTARG}'" "See '${0} --help' for usage" ;;
esac
done
shift $((OPTIND-1))
if [ "$#" -eq 0 ]; then
fatal "Expected at least one required argument FILE" \
"See '${0} --help' for usage"
fi
echo "foo=$foo, bar=$bar, baz=$baz, files=${#}"
Solution that preserves unhandled arguments. Demos Included.
Here is my solution. It is VERY flexible and unlike others, shouldn't require external packages and handles leftover arguments cleanly.
Usage is: ./myscript -flag flagvariable -otherflag flagvar2
All you have to do is edit the validflags line. It prepends a hyphen and searches all arguments. It then defines the next argument as the flag name e.g.
./myscript -flag flagvariable -otherflag flagvar2
echo $flag $otherflag
flagvariable flagvar2
The main code (short version, verbose with examples further down, also a version with erroring out):
#!/usr/bin/env bash
#shebang.io
validflags="rate time number"
count=1
for arg in $#
do
match=0
argval=$1
for flag in $validflags
do
sflag="-"$flag
if [ "$argval" == "$sflag" ]
then
declare $flag=$2
match=1
fi
done
if [ "$match" == "1" ]
then
shift 2
else
leftovers=$(echo $leftovers $argval)
shift
fi
count=$(($count+1))
done
#Cleanup then restore the leftovers
shift $#
set -- $leftovers
The verbose version with built in echo demos:
#!/usr/bin/env bash
#shebang.io
rate=30
time=30
number=30
echo "all args
$#"
validflags="rate time number"
count=1
for arg in $#
do
match=0
argval=$1
# argval=$(echo $# | cut -d ' ' -f$count)
for flag in $validflags
do
sflag="-"$flag
if [ "$argval" == "$sflag" ]
then
declare $flag=$2
match=1
fi
done
if [ "$match" == "1" ]
then
shift 2
else
leftovers=$(echo $leftovers $argval)
shift
fi
count=$(($count+1))
done
#Cleanup then restore the leftovers
echo "pre final clear args:
$#"
shift $#
echo "post final clear args:
$#"
set -- $leftovers
echo "all post set args:
$#"
echo arg1: $1 arg2: $2
echo leftovers: $leftovers
echo rate $rate time $time number $number
Final one, this one errors out if an invalid -argument is passed through.
#!/usr/bin/env bash
#shebang.io
rate=30
time=30
number=30
validflags="rate time number"
count=1
for arg in $#
do
argval=$1
match=0
if [ "${argval:0:1}" == "-" ]
then
for flag in $validflags
do
sflag="-"$flag
if [ "$argval" == "$sflag" ]
then
declare $flag=$2
match=1
fi
done
if [ "$match" == "0" ]
then
echo "Bad argument: $argval"
exit 1
fi
shift 2
else
leftovers=$(echo $leftovers $argval)
shift
fi
count=$(($count+1))
done
#Cleanup then restore the leftovers
shift $#
set -- $leftovers
echo rate $rate time $time number $number
echo leftovers: $leftovers
Pros: What it does, it handles very well. It preserves unused arguments which a lot of the other solutions here don't. It also allows for variables to be called without being defined by hand in the script. It also allows prepopulation of variables if no corresponding argument is given. (See verbose example).
Cons: Can't parse a single complex arg string e.g. -xcvf would process as a single argument. You could somewhat easily write additional code into mine that adds this functionality though.
Based on other answers here, this my version:
#!/bin/bash
set -e
function parse() {
for arg in "$#"; do # transform long options to short ones
shift
case "$arg" in
"--name") set -- "$#" "-n" ;;
"--verbose") set -- "$#" "-v" ;;
*) set -- "$#" "$arg"
esac
done
while getopts "n:v" optname # left to ":" are flags that expect a value, right to the ":" are flags that expect nothing
do
case "$optname" in
"n") name=${OPTARG} ;;
"v") verbose=true ;;
esac
done
shift "$((OPTIND-1))" # shift out all the already processed options
}
parse "$#"
echo "hello $name"
if [ ! -z $verbose ]; then echo 'nice to meet you!'; fi
Usage:
$ ./parse.sh
hello
$ ./parse.sh -n YOUR_NAME
hello YOUR_NAME
$ ./parse.sh -n YOUR_NAME -v
hello YOUR_NAME
nice to meet you!
$ ./parse.sh -v -n YOUR_NAME
hello YOUR_NAME
nice to meet you!
$ ./parse.sh -v
hello
nice to meet you!
Here is my approach - using regexp.
no getopts
it handles block of short parameters -qwerty
it handles short parameters -q -w -e
it handles long options --qwerty
you can pass attribute to short or long option (if you are using block of short options, attribute is attached to the last option)
you can use spaces or = to provide attributes, but attribute matches until encountering hyphen+space "delimiter", so in --q=qwe ty qwe ty is one attribute
it handles mix of all above so -o a -op attr ibute --option=att ribu te --op-tion attribute --option att-ribute is valid
script:
#!/usr/bin/env sh
help_menu() {
echo "Usage:
${0##*/} [-h][-l FILENAME][-d]
Options:
-h, --help
display this help and exit
-l, --logfile=FILENAME
filename
-d, --debug
enable debug
"
}
parse_options() {
case $opt in
h|help)
help_menu
exit
;;
l|logfile)
logfile=${attr}
;;
d|debug)
debug=true
;;
*)
echo "Unknown option: ${opt}\nRun ${0##*/} -h for help.">&2
exit 1
esac
}
options=$#
until [ "$options" = "" ]; do
if [[ $options =~ (^ *(--([a-zA-Z0-9-]+)|-([a-zA-Z0-9-]+))(( |=)(([\_\.\?\/\\a-zA-Z0-9]?[ -]?[\_\.\?a-zA-Z0-9]+)+))?(.*)|(.+)) ]]; then
if [[ ${BASH_REMATCH[3]} ]]; then # for --option[=][attribute] or --option[=][attribute]
opt=${BASH_REMATCH[3]}
attr=${BASH_REMATCH[7]}
options=${BASH_REMATCH[9]}
elif [[ ${BASH_REMATCH[4]} ]]; then # for block options -qwert[=][attribute] or single short option -a[=][attribute]
pile=${BASH_REMATCH[4]}
while (( ${#pile} > 1 )); do
opt=${pile:0:1}
attr=""
pile=${pile/${pile:0:1}/}
parse_options
done
opt=$pile
attr=${BASH_REMATCH[7]}
options=${BASH_REMATCH[9]}
else # leftovers that don't match
opt=${BASH_REMATCH[10]}
options=""
fi
parse_options
fi
done
Mixing positional and flag-based arguments
--param=arg (equals delimited)
Freely mixing flags between positional arguments:
./script.sh dumbo 127.0.0.1 --environment=production -q -d
./script.sh dumbo --environment=production 127.0.0.1 --quiet -d
can be accomplished with a fairly concise approach:
# process flags
pointer=1
while [[ $pointer -le $# ]]; do
param=${!pointer}
if [[ $param != "-"* ]]; then ((pointer++)) # not a parameter flag so advance pointer
else
case $param in
# paramter-flags with arguments
-e=*|--environment=*) environment="${param#*=}";;
--another=*) another="${param#*=}";;
# binary flags
-q|--quiet) quiet=true;;
-d) debug=true;;
esac
# splice out pointer frame from positional list
[[ $pointer -gt 1 ]] \
&& set -- ${#:1:((pointer - 1))} ${#:((pointer + 1)):$#} \
|| set -- ${#:((pointer + 1)):$#};
fi
done
# positional remain
node_name=$1
ip_address=$2
--param arg (space delimited)
It's usualy clearer to not mix --flag=value and --flag value styles.
./script.sh dumbo 127.0.0.1 --environment production -q -d
This is a little dicey to read, but is still valid
./script.sh dumbo --environment production 127.0.0.1 --quiet -d
Source
# process flags
pointer=1
while [[ $pointer -le $# ]]; do
if [[ ${!pointer} != "-"* ]]; then ((pointer++)) # not a parameter flag so advance pointer
else
param=${!pointer}
((pointer_plus = pointer + 1))
slice_len=1
case $param in
# paramter-flags with arguments
-e|--environment) environment=${!pointer_plus}; ((slice_len++));;
--another) another=${!pointer_plus}; ((slice_len++));;
# binary flags
-q|--quiet) quiet=true;;
-d) debug=true;;
esac
# splice out pointer frame from positional list
[[ $pointer -gt 1 ]] \
&& set -- ${#:1:((pointer - 1))} ${#:((pointer + $slice_len)):$#} \
|| set -- ${#:((pointer + $slice_len)):$#};
fi
done
# positional remain
node_name=$1
ip_address=$2
Note that getopt(1) was a short living mistake from AT&T.
getopt was created in 1984 but already buried in 1986 because it was not really usable.
A proof for the fact that getopt is very outdated is that the getopt(1) man page still mentions "$*" instead of "$#", that was added to the Bourne Shell in 1986 together with the getopts(1) shell builtin in order to deal with arguments with spaces inside.
BTW: if you are interested in parsing long options in shell scripts, it may be of interest to know that the getopt(3) implementation from libc (Solaris) and ksh93 both added a uniform long option implementation that supports long options as aliases for short options. This causes ksh93 and the Bourne Shell to implement a uniform interface for long options via getopts.
An example for long options taken from the Bourne Shell man page:
getopts "f:(file)(input-file)o:(output-file)" OPTX "$#"
shows how long option aliases may be used in both Bourne Shell and ksh93.
See the man page of a recent Bourne Shell:
http://schillix.sourceforge.net/man/man1/bosh.1.html
and the man page for getopt(3) from OpenSolaris:
http://schillix.sourceforge.net/man/man3c/getopt.3c.html
and last, the getopt(1) man page to verify the outdated $*:
http://schillix.sourceforge.net/man/man1/getopt.1.html
I have write a bash helper to write a nice bash tool
project home: https://gitlab.mbedsys.org/mbedsys/bashopts
example:
#!/bin/bash -ei
# load the library
. bashopts.sh
# Enable backtrace dusplay on error
trap 'bashopts_exit_handle' ERR
# Initialize the library
bashopts_setup -n "$0" -d "This is myapp tool description displayed on help message" -s "$HOME/.config/myapprc"
# Declare the options
bashopts_declare -n first_name -l first -o f -d "First name" -t string -i -s -r
bashopts_declare -n last_name -l last -o l -d "Last name" -t string -i -s -r
bashopts_declare -n display_name -l display-name -t string -d "Display name" -e "\$first_name \$last_name"
bashopts_declare -n age -l number -d "Age" -t number
bashopts_declare -n email_list -t string -m add -l email -d "Email adress"
# Parse arguments
bashopts_parse_args "$#"
# Process argument
bashopts_process_args
will give help:
NAME:
./example.sh - This is myapp tool description displayed on help message
USAGE:
[options and commands] [-- [extra args]]
OPTIONS:
-h,--help Display this help
-n,--non-interactive true Non interactive mode - [$bashopts_non_interactive] (type:boolean, default:false)
-f,--first "John" First name - [$first_name] (type:string, default:"")
-l,--last "Smith" Last name - [$last_name] (type:string, default:"")
--display-name "John Smith" Display name - [$display_name] (type:string, default:"$first_name $last_name")
--number 0 Age - [$age] (type:number, default:0)
--email Email adress - [$email_list] (type:string, default:"")
enjoy :)
Assume we create a shell script named test_args.sh as follow
#!/bin/sh
until [ $# -eq 0 ]
do
name=${1:1}; shift;
if [[ -z "$1" || $1 == -* ]] ; then eval "export $name=true"; else eval "export $name=$1"; shift; fi
done
echo "year=$year month=$month day=$day flag=$flag"
After we run the following command:
sh test_args.sh -year 2017 -flag -month 12 -day 22
The output would be:
year=2017 month=12 day=22 flag=true
Here is a getopts that achieves the parsing with minimal code and allows you to define what you wish to extract in one case using eval with substring.
Basically eval "local key='val'"
function myrsync() {
local backup=("${#}") args=(); while [[ $# -gt 0 ]]; do k="$1";
case "$k" in
---sourceuser|---sourceurl|---targetuser|---targeturl|---file|---exclude|---include)
eval "local ${k:3}='${2}'"; shift; shift # Past two arguments
;;
*) # Unknown option
args+=("$1"); shift; # Past argument only
;;
esac
done; set -- "${backup[#]}" # Restore $#
echo "${sourceurl}"
}
Declares the variables as locals instead of globals as most answers here.
Called as:
myrsync ---sourceurl http://abc.def.g ---sourceuser myuser ...
The ${k:3} is basically a substring to remove the first --- from the key.
I wanted to share what I made for parsing options.
Some of my needs were not fulfilled by the answers here so I had to come up with this: https://github.com/MihirLuthra/bash_option_parser
This supports:
Suboption parsing
Alias names for options
Optional args
Variable args
Printing usage and errors
Let's say we have a command named fruit with usage as follows:
fruit <fruit-name> ...
[-e|—-eat|—-chew]
[-c|--cut <how> <why>]
<command> [<args>]
-e takes no args
-c takes two args i.e. how to cut and why to cut
fruit itself takes at least one argument.
<command> is for suboptions like apple, orange etc. (similar to git which has suboptions commit, push etc. )
So to parse it:
parse_options \
'fruit' '1 ...' \
'-e' , '--eat' , '--chew' '0' \
'-c' , '--cut' '1 1' \
'apple' 'S' \
'orange' 'S' \
';' \
"$#"
Now if there was any usage error, it can be printed using option_parser_error_msg as follows:
retval=$?
if [ $retval -ne 0 ]; then
# this will manage error messages if
# insufficient or extra args are supplied
option_parser_error_msg "$retval"
# This will print the usage
print_usage 'fruit'
exit 1
fi
To check now if some options was passed,
if [ -n "${OPTIONS[-c]}" ]
then
echo "-c was passed"
# args can be accessed in a 2D-array-like format
echo "Arg1 to -c = ${ARGS[-c,0]}"
echo "Arg2 to -c = ${ARGS[-c,1]}"
fi
Suboption parsing can also be done by passing $shift_count to parse_options_detailed which makes it start parsing after shifting args to reach args of suboption. It is demonstrated in this example.
A detailed description is provided in the readme and examples
in the repository.

Bash - How to vary positional parameters in a case statement depending on command line arguments? [duplicate]

Say, I have a script that gets called with this line:
./myscript -vfd ./foo/bar/someFile -o /fizz/someOtherFile
or this one:
./myscript -v -f -d -o /fizz/someOtherFile ./foo/bar/someFile
What's the accepted way of parsing this such that in each case (or some combination of the two) $v, $f, and $d will all be set to true and $outFile will be equal to /fizz/someOtherFile?
Bash Space-Separated (e.g., --option argument)
cat >/tmp/demo-space-separated.sh <<'EOF'
#!/bin/bash
POSITIONAL_ARGS=()
while [[ $# -gt 0 ]]; do
case $1 in
-e|--extension)
EXTENSION="$2"
shift # past argument
shift # past value
;;
-s|--searchpath)
SEARCHPATH="$2"
shift # past argument
shift # past value
;;
--default)
DEFAULT=YES
shift # past argument
;;
-*|--*)
echo "Unknown option $1"
exit 1
;;
*)
POSITIONAL_ARGS+=("$1") # save positional arg
shift # past argument
;;
esac
done
set -- "${POSITIONAL_ARGS[#]}" # restore positional parameters
echo "FILE EXTENSION = ${EXTENSION}"
echo "SEARCH PATH = ${SEARCHPATH}"
echo "DEFAULT = ${DEFAULT}"
echo "Number files in SEARCH PATH with EXTENSION:" $(ls -1 "${SEARCHPATH}"/*."${EXTENSION}" | wc -l)
if [[ -n $1 ]]; then
echo "Last line of file specified as non-opt/last argument:"
tail -1 "$1"
fi
EOF
chmod +x /tmp/demo-space-separated.sh
/tmp/demo-space-separated.sh -e conf -s /etc /etc/hosts
Output from copy-pasting the block above
FILE EXTENSION = conf
SEARCH PATH = /etc
DEFAULT =
Number files in SEARCH PATH with EXTENSION: 14
Last line of file specified as non-opt/last argument:
#93.184.216.34 example.com
Usage
demo-space-separated.sh -e conf -s /etc /etc/hosts
Bash Equals-Separated (e.g., --option=argument)
cat >/tmp/demo-equals-separated.sh <<'EOF'
#!/bin/bash
for i in "$#"; do
case $i in
-e=*|--extension=*)
EXTENSION="${i#*=}"
shift # past argument=value
;;
-s=*|--searchpath=*)
SEARCHPATH="${i#*=}"
shift # past argument=value
;;
--default)
DEFAULT=YES
shift # past argument with no value
;;
-*|--*)
echo "Unknown option $i"
exit 1
;;
*)
;;
esac
done
echo "FILE EXTENSION = ${EXTENSION}"
echo "SEARCH PATH = ${SEARCHPATH}"
echo "DEFAULT = ${DEFAULT}"
echo "Number files in SEARCH PATH with EXTENSION:" $(ls -1 "${SEARCHPATH}"/*."${EXTENSION}" | wc -l)
if [[ -n $1 ]]; then
echo "Last line of file specified as non-opt/last argument:"
tail -1 $1
fi
EOF
chmod +x /tmp/demo-equals-separated.sh
/tmp/demo-equals-separated.sh -e=conf -s=/etc /etc/hosts
Output from copy-pasting the block above
FILE EXTENSION = conf
SEARCH PATH = /etc
DEFAULT =
Number files in SEARCH PATH with EXTENSION: 14
Last line of file specified as non-opt/last argument:
#93.184.216.34 example.com
Usage
demo-equals-separated.sh -e=conf -s=/etc /etc/hosts
To better understand ${i#*=} search for "Substring Removal" in this guide. It is functionally equivalent to `sed 's/[^=]*=//' <<< "$i"` which calls a needless subprocess or `echo "$i" | sed 's/[^=]*=//'` which calls two needless subprocesses.
Using bash with getopt[s]
getopt(1) limitations (older, relatively-recent getopt versions):
can't handle arguments that are empty strings
can't handle arguments with embedded whitespace
More recent getopt versions don't have these limitations. For more information, see these docs.
POSIX getopts
Additionally, the POSIX shell and others offer getopts which doen't have these limitations. I've included a simplistic getopts example.
cat >/tmp/demo-getopts.sh <<'EOF'
#!/bin/sh
# A POSIX variable
OPTIND=1 # Reset in case getopts has been used previously in the shell.
# Initialize our own variables:
output_file=""
verbose=0
while getopts "h?vf:" opt; do
case "$opt" in
h|\?)
show_help
exit 0
;;
v) verbose=1
;;
f) output_file=$OPTARG
;;
esac
done
shift $((OPTIND-1))
[ "${1:-}" = "--" ] && shift
echo "verbose=$verbose, output_file='$output_file', Leftovers: $#"
EOF
chmod +x /tmp/demo-getopts.sh
/tmp/demo-getopts.sh -vf /etc/hosts foo bar
Output from copy-pasting the block above
verbose=1, output_file='/etc/hosts', Leftovers: foo bar
Usage
demo-getopts.sh -vf /etc/hosts foo bar
The advantages of getopts are:
It's more portable, and will work in other shells like dash.
It can handle multiple single options like -vf filename in the typical Unix way, automatically.
The disadvantage of getopts is that it can only handle short options (-h, not --help) without additional code.
There is a getopts tutorial which explains what all of the syntax and variables mean. In bash, there is also help getopts, which might be informative.
No answer showcases enhanced getopt. And the top-voted answer is misleading: It either ignores -⁠vfd style short options (requested by the OP) or options after positional arguments (also requested by the OP); and it ignores parsing-errors. Instead:
Use enhanced getopt from util-linux or formerly GNU glibc.1
It works with getopt_long() the C function of GNU glibc.
no other solution on this page can do all this:
handles spaces, quoting characters and even binary in arguments2 (non-enhanced getopt can’t do this)
it can handle options at the end: script.sh -o outFile file1 file2 -v (getopts doesn’t do this)
allows =-style long options: script.sh --outfile=fileOut --infile fileIn (allowing both is lengthy if self parsing)
allows combined short options, e.g. -vfd (real work if self parsing)
allows touching option-arguments, e.g. -oOutfile or -vfdoOutfile
Is so old already3 that no GNU system is missing this (e.g. any Linux has it).
You can test for its existence with: getopt --test → return value 4.
Other getopt or shell-builtin getopts are of limited use.
The following calls
myscript -vfd ./foo/bar/someFile -o /fizz/someOtherFile
myscript -v -f -d -o/fizz/someOtherFile -- ./foo/bar/someFile
myscript --verbose --force --debug ./foo/bar/someFile -o/fizz/someOtherFile
myscript --output=/fizz/someOtherFile ./foo/bar/someFile -vfd
myscript ./foo/bar/someFile -df -v --output /fizz/someOtherFile
all return
verbose: y, force: y, debug: y, in: ./foo/bar/someFile, out: /fizz/someOtherFile
with the following myscript
#!/bin/bash
# More safety, by turning some bugs into errors.
# Without `errexit` you don’t need ! and can replace
# ${PIPESTATUS[0]} with a simple $?, but I prefer safety.
set -o errexit -o pipefail -o noclobber -o nounset
# -allow a command to fail with !’s side effect on errexit
# -use return value from ${PIPESTATUS[0]}, because ! hosed $?
! getopt --test > /dev/null
if [[ ${PIPESTATUS[0]} -ne 4 ]]; then
echo 'I’m sorry, `getopt --test` failed in this environment.'
exit 1
fi
# option --output/-o requires 1 argument
LONGOPTS=debug,force,output:,verbose
OPTIONS=dfo:v
# -regarding ! and PIPESTATUS see above
# -temporarily store output to be able to check for errors
# -activate quoting/enhanced mode (e.g. by writing out “--options”)
# -pass arguments only via -- "$#" to separate them correctly
! PARSED=$(getopt --options=$OPTIONS --longoptions=$LONGOPTS --name "$0" -- "$#")
if [[ ${PIPESTATUS[0]} -ne 0 ]]; then
# e.g. return value is 1
# then getopt has complained about wrong arguments to stdout
exit 2
fi
# read getopt’s output this way to handle the quoting right:
eval set -- "$PARSED"
d=n f=n v=n outFile=-
# now enjoy the options in order and nicely split until we see --
while true; do
case "$1" in
-d|--debug)
d=y
shift
;;
-f|--force)
f=y
shift
;;
-v|--verbose)
v=y
shift
;;
-o|--output)
outFile="$2"
shift 2
;;
--)
shift
break
;;
*)
echo "Programming error"
exit 3
;;
esac
done
# handle non-option arguments
if [[ $# -ne 1 ]]; then
echo "$0: A single input file is required."
exit 4
fi
echo "verbose: $v, force: $f, debug: $d, in: $1, out: $outFile"
1 enhanced getopt is available on most “bash-systems”, including Cygwin; on OS X try brew install gnu-getopt or sudo port install getopt
2 the POSIX exec() conventions have no reliable way to pass binary NULL in command line arguments; those bytes prematurely end the argument
3 first version released in 1997 or before (I only tracked it back to 1997)
deploy.sh
#!/bin/bash
while [[ "$#" -gt 0 ]]; do
case $1 in
-t|--target) target="$2"; shift ;;
-u|--uglify) uglify=1 ;;
*) echo "Unknown parameter passed: $1"; exit 1 ;;
esac
shift
done
echo "Where to deploy: $target"
echo "Should uglify : $uglify"
Usage:
./deploy.sh -t dev -u
# OR:
./deploy.sh --target dev --uglify
From digitalpeer.com with minor modifications:
Usage myscript.sh -p=my_prefix -s=dirname -l=libname
#!/bin/bash
for i in "$#"
do
case $i in
-p=*|--prefix=*)
PREFIX="${i#*=}"
;;
-s=*|--searchpath=*)
SEARCHPATH="${i#*=}"
;;
-l=*|--lib=*)
DIR="${i#*=}"
;;
--default)
DEFAULT=YES
;;
*)
# unknown option
;;
esac
done
echo PREFIX = ${PREFIX}
echo SEARCH PATH = ${SEARCHPATH}
echo DIRS = ${DIR}
echo DEFAULT = ${DEFAULT}
To better understand ${i#*=} search for "Substring Removal" in this guide. It is functionally equivalent to `sed 's/[^=]*=//' <<< "$i"` which calls a needless subprocess or `echo "$i" | sed 's/[^=]*=//'` which calls two needless subprocesses.
while [ "$#" -gt 0 ]; do
case "$1" in
-n) name="$2"; shift 2;;
-p) pidfile="$2"; shift 2;;
-l) logfile="$2"; shift 2;;
--name=*) name="${1#*=}"; shift 1;;
--pidfile=*) pidfile="${1#*=}"; shift 1;;
--logfile=*) logfile="${1#*=}"; shift 1;;
--name|--pidfile|--logfile) echo "$1 requires an argument" >&2; exit 1;;
-*) echo "unknown option: $1" >&2; exit 1;;
*) handle_argument "$1"; shift 1;;
esac
done
This solution:
handles -n arg and --name=arg
allows arguments at the end
shows sane errors if anything is misspelled
compatible, doesn't use bashisms
readable, doesn't require maintaining state in a loop
getopt()/getopts() is a good option. Copied from here:
The simple use of "getopt" is shown in this mini-script:
#!/bin/bash
echo "Before getopt"
for i
do
echo $i
done
args=`getopt abc:d $*`
set -- $args
echo "After getopt"
for i
do
echo "-->$i"
done
What we have said is that any of -a,
-b, -c or -d will be allowed, but that -c is followed by an argument (the "c:" says that).
If we call this "g" and try it out:
bash-2.05a$ ./g -abc foo
Before getopt
-abc
foo
After getopt
-->-a
-->-b
-->-c
-->foo
-->--
We start with two arguments, and
"getopt" breaks apart the options and
puts each in its own argument. It also
added "--".
I have found the matter to write portable parsing in scripts so frustrating that I have written Argbash - a FOSS code generator that can generate the arguments-parsing code for your script plus it has some nice features:
https://argbash.io
I used the earlier answers as a starting point to tidy up my old adhoc param parsing. I then refactored out the following template code. It handles both long and short params, using = or space separated arguments, as well as multiple short params grouped together. Finally it re-inserts any non-param arguments back into the $1,$2.. variables.
#!/usr/bin/env bash
# NOTICE: Uncomment if your script depends on bashisms.
#if [ -z "$BASH_VERSION" ]; then bash $0 $# ; exit $? ; fi
echo "Before"
for i ; do echo - $i ; done
# Code template for parsing command line parameters using only portable shell
# code, while handling both long and short params, handling '-f file' and
# '-f=file' style param data and also capturing non-parameters to be inserted
# back into the shell positional parameters.
while [ -n "$1" ]; do
# Copy so we can modify it (can't modify $1)
OPT="$1"
# Detect argument termination
if [ x"$OPT" = x"--" ]; then
shift
for OPT ; do
REMAINS="$REMAINS \"$OPT\""
done
break
fi
# Parse current opt
while [ x"$OPT" != x"-" ] ; do
case "$OPT" in
# Handle --flag=value opts like this
-c=* | --config=* )
CONFIGFILE="${OPT#*=}"
shift
;;
# and --flag value opts like this
-c* | --config )
CONFIGFILE="$2"
shift
;;
-f* | --force )
FORCE=true
;;
-r* | --retry )
RETRY=true
;;
# Anything unknown is recorded for later
* )
REMAINS="$REMAINS \"$OPT\""
break
;;
esac
# Check for multiple short options
# NOTICE: be sure to update this pattern to match valid options
NEXTOPT="${OPT#-[cfr]}" # try removing single short opt
if [ x"$OPT" != x"$NEXTOPT" ] ; then
OPT="-$NEXTOPT" # multiple short opts, keep going
else
break # long form, exit inner loop
fi
done
# Done with that param. move to next
shift
done
# Set the non-parameters back into the positional parameters ($1 $2 ..)
eval set -- $REMAINS
echo -e "After: \n configfile='$CONFIGFILE' \n force='$FORCE' \n retry='$RETRY' \n remains='$REMAINS'"
for i ; do echo - $i ; done
# As long as there is at least one more argument, keep looping
while [[ $# -gt 0 ]]; do
key="$1"
case "$key" in
# This is a flag type option. Will catch either -f or --foo
-f|--foo)
FOO=1
;;
# Also a flag type option. Will catch either -b or --bar
-b|--bar)
BAR=1
;;
# This is an arg value type option. Will catch -o value or --output-file value
-o|--output-file)
shift # past the key and to the value
OUTPUTFILE="$1"
;;
# This is an arg=value type option. Will catch -o=value or --output-file=value
-o=*|--output-file=*)
# No need to shift here since the value is part of the same string
OUTPUTFILE="${key#*=}"
;;
*)
# Do whatever you want with extra options
echo "Unknown option '$key'"
;;
esac
# Shift after checking all the cases to get the next option
shift
done
This allows you to have both space separated options/values, as well as equal defined values.
So you could run your script using:
./myscript --foo -b -o /fizz/file.txt
as well as:
./myscript -f --bar -o=/fizz/file.txt
and both should have the same end result.
PROS:
Allows for both -arg=value and -arg value
Works with any arg name that you can use in bash
Meaning -a or -arg or --arg or -a-r-g or whatever
Pure bash. No need to learn/use getopt or getopts
CONS:
Can't combine args
Meaning no -abc. You must do -a -b -c
This example shows how to use getopt and eval and HEREDOC and shift to handle short and long parameters with and without a required value that follows. Also the switch/case statement is concise and easy to follow.
#!/usr/bin/env bash
# usage function
function usage()
{
cat << HEREDOC
Usage: $progname [--num NUM] [--time TIME_STR] [--verbose] [--dry-run]
optional arguments:
-h, --help show this help message and exit
-n, --num NUM pass in a number
-t, --time TIME_STR pass in a time string
-v, --verbose increase the verbosity of the bash script
--dry-run do a dry run, dont change any files
HEREDOC
}
# initialize variables
progname=$(basename $0)
verbose=0
dryrun=0
num_str=
time_str=
# use getopt and store the output into $OPTS
# note the use of -o for the short options, --long for the long name options
# and a : for any option that takes a parameter
OPTS=$(getopt -o "hn:t:v" --long "help,num:,time:,verbose,dry-run" -n "$progname" -- "$#")
if [ $? != 0 ] ; then echo "Error in command line arguments." >&2 ; usage; exit 1 ; fi
eval set -- "$OPTS"
while true; do
# uncomment the next line to see how shift is working
# echo "\$1:\"$1\" \$2:\"$2\""
case "$1" in
-h | --help ) usage; exit; ;;
-n | --num ) num_str="$2"; shift 2 ;;
-t | --time ) time_str="$2"; shift 2 ;;
--dry-run ) dryrun=1; shift ;;
-v | --verbose ) verbose=$((verbose + 1)); shift ;;
-- ) shift; break ;;
* ) break ;;
esac
done
if (( $verbose > 0 )); then
# print out all the parameters we read in
cat <<EOM
num=$num_str
time=$time_str
verbose=$verbose
dryrun=$dryrun
EOM
fi
# The rest of your script below
The most significant lines of the script above are these:
OPTS=$(getopt -o "hn:t:v" --long "help,num:,time:,verbose,dry-run" -n "$progname" -- "$#")
if [ $? != 0 ] ; then echo "Error in command line arguments." >&2 ; exit 1 ; fi
eval set -- "$OPTS"
while true; do
case "$1" in
-h | --help ) usage; exit; ;;
-n | --num ) num_str="$2"; shift 2 ;;
-t | --time ) time_str="$2"; shift 2 ;;
--dry-run ) dryrun=1; shift ;;
-v | --verbose ) verbose=$((verbose + 1)); shift ;;
-- ) shift; break ;;
* ) break ;;
esac
done
Short, to the point, readable, and handles just about everything (IMHO).
Hope that helps someone.
Expanding on #bruno-bronosky's answer, I added a "preprocessor" to handle some common formatting:
Expands --longopt=val into --longopt val
Expands -xyz into -x -y -z
Supports -- to indicate the end of flags
Shows an error for unexpected options
Compact and easy-to-read options switch
#!/bin/bash
# Report usage
usage() {
echo "Usage:"
echo "$(basename "$0") [options] [--] [file1, ...]"
}
invalid() {
echo "ERROR: Unrecognized argument: $1" >&2
usage
exit 1
}
# Pre-process options to:
# - expand -xyz into -x -y -z
# - expand --longopt=arg into --longopt arg
ARGV=()
END_OF_OPT=
while [[ $# -gt 0 ]]; do
arg="$1"; shift
case "${END_OF_OPT}${arg}" in
--) ARGV+=("$arg"); END_OF_OPT=1 ;;
--*=*)ARGV+=("${arg%%=*}" "${arg#*=}") ;;
--*) ARGV+=("$arg") ;;
-*) for i in $(seq 2 ${#arg}); do ARGV+=("-${arg:i-1:1}"); done ;;
*) ARGV+=("$arg") ;;
esac
done
# Apply pre-processed options
set -- "${ARGV[#]}"
# Parse options
END_OF_OPT=
POSITIONAL=()
while [[ $# -gt 0 ]]; do
case "${END_OF_OPT}${1}" in
-h|--help) usage; exit 0 ;;
-p|--password) shift; PASSWORD="$1" ;;
-u|--username) shift; USERNAME="$1" ;;
-n|--name) shift; names+=("$1") ;;
-q|--quiet) QUIET=1 ;;
-C|--copy) COPY=1 ;;
-N|--notify) NOTIFY=1 ;;
--stdin) READ_STDIN=1 ;;
--) END_OF_OPT=1 ;;
-*) invalid "$1" ;;
*) POSITIONAL+=("$1") ;;
esac
shift
done
# Restore positional parameters
set -- "${POSITIONAL[#]}"
ASAP: Another Shell Argument Parser
Edit note: version 2.0, now with pure POSIX shell code and zero witchery!
TL;DR
This parser uses only POSIX compliant shell code to process options in these formats: -o [ARG], -abo [ARG], --opt [ARG] or --opt=[ARG], where ARG is an optional argument. It can handle intermixed options and arguments, and also "--" to force any argument after it to be treated as positional.
Here is a minimal version that works as long as the command is correct, i.e. it doesn't perform almost any checks. You can paste it at the top of your sh script —it won't work as a function— and substitute your option definitions.
#!/bin/sh -e
USAGE="Usage: ${CMD=${0##*/}} [(-v|--verbose)] [--name=TEXT] [(-o|--output) FILE] [ARGS...]"
exit2 () { printf >&2 "%s: %s: '%s'\n%s\n" "$CMD" "$1" "$2" "$USAGE"; exit 2; }
check () { { [ "$1" != "$EOL" ] && [ "$1" != '--' ]; } || exit2 "missing argument" "$2"; } # avoid infinite loop
# parse command-line options
set -- "$#" "${EOL:=$(printf '\1\3\3\7')}" # end-of-list marker
while [ "$1" != "$EOL" ]; do
opt="$1"; shift
case "$opt" in
#EDIT HERE: defined options
--name ) check "$1" "$opt"; opt_name="$1"; shift;;
-o | --output ) check "$1" "$opt"; opt_output="$1"; shift;;
-v | --verbose ) opt_verbose='true';;
-h | --help ) printf "%s\n" "$USAGE"; exit 0;;
# process special cases
--) while [ "$1" != "$EOL" ]; do set -- "$#" "$1"; shift; done;; # parse remaining as positional
--[!=]*=*) set -- "${opt%%=*}" "${opt#*=}" "$#";; # "--opt=arg" -> "--opt" "arg"
-[A-Za-z0-9] | -*[!A-Za-z0-9]*) exit2 "invalid option" "$opt";; # anything invalid like '-*'
-?*) other="${opt#-?}"; set -- "${opt%$other}" "-${other}" "$#";; # "-abc" -> "-a" "-bc"
*) set -- "$#" "$opt";; # positional, rotate to the end
esac
done; shift # $EOL
unset CMD EOL USAGE opt other
unset -f check exit2
printf "name = '%s'\noutput = '%s'\nverbose = '%s'\n\$# = (%s)\n" "$opt_name" "$opt_output" "$opt_verbose" "$*"
Sample outputs
$ ./asap-example.sh -vo path/to/camelot 'spam?' --name=Arthur 'spam!' -- +42 -17
name = 'Arthur'
output = 'path/to/camelot'
verbose = 'true'
$# = (spam? spam! +42 -17)
$ ./asap-example.sh -name Lancelot eggs bacon
asap-example.sh: invalid option: '-n'
Usage: asap-example.sh [(-v|--verbose)] [--name=TEXT] [(-o|--output) FILE] [ARG...]
Description
I was inspired by the relatively simple answer by #bronson and tempted to try to improve it (without adding too much complexity).
This parser implementation uses pattern matching, parameter expansion and the shell's own positional parameters as a rotating stack to loop over and process arguments. Here's the result:
Any of the -o [ARG], -abo [ARG], --long-option [ARG] and --long-option=[ARG] styles of options are accepted;
Arguments may occur in any order, only positional ones are left in $# after the loop;
Use -- to force remaining arguments to be treated as positional;
Portable, compact, quite readable, with independent features;
Doesn't depend on getopt(s) or external utilities;
Detects invalid options and missing arguments.
Portability
This code was tested and verified to work with a reasonably recent version of: BusyBox's ash, bash, dash, mksh, ksh93, yash and zsh (called with their standard executable path, not as /bin/sh).
PS: I know... An argument with the binary value 0x01030307 could break the logic. But, if anyone passes such an argument in a command-line, they deserve it.
If you are making scripts that are interchangeable with other utilities, below flexibility may be useful.
Either:
command -x=myfilename.ext --another_switch
Or:
command -x myfilename.ext --another_switch
Here is the code:
STD_IN=0
prefix=""
key=""
value=""
for keyValue in "$#"
do
case "${prefix}${keyValue}" in
-i=*|--input_filename=*) key="-i"; value="${keyValue#*=}";;
-ss=*|--seek_from=*) key="-ss"; value="${keyValue#*=}";;
-t=*|--play_seconds=*) key="-t"; value="${keyValue#*=}";;
-|--stdin) key="-"; value=1;;
*) value=$keyValue;;
esac
case $key in
-i) MOVIE=$(resolveMovie "${value}"); prefix=""; key="";;
-ss) SEEK_FROM="${value}"; prefix=""; key="";;
-t) PLAY_SECONDS="${value}"; prefix=""; key="";;
-) STD_IN=${value}; prefix=""; key="";;
*) prefix="${keyValue}=";;
esac
done
I think this one is simple enough to use:
#!/bin/bash
#
readopt='getopts $opts opt;rc=$?;[ "$rc$opt" = "0?" ]&&exit 1;[ $rc = 0 ]||{ shift $[OPTIND-1];false; }'
opts=vfdo:
# Enumerating options
while eval "$readopt"
do
echo OPT:$opt ${OPTARG+OPTARG:$OPTARG}
done
# Enumerating arguments
for arg
do
echo ARG:$arg
done
Invocation example:
./myscript -v -do /fizz/someOtherFile -f ./foo/bar/someFile
OPT:v
OPT:d
OPT:o OPTARG:/fizz/someOtherFile
OPT:f
ARG:./foo/bar/someFile
I give you The Function parse_params that will parse params from the command line.
It is a pure Bash solution, no additional utilities.
Does not pollute global scope.
Effortlessly returns you simple to use variables, that you could build further logic on.
Amount of dashes before params does not matter (--all equals -all equals all=all)
The script below is a copy-paste working demonstration. See show_use function to understand how to use parse_params.
Limitations:
Does not support space delimited params (-d 1)
Param names will lose dashes so --any-param and -anyparam are equivalent
eval $(parse_params "$#") must be used inside bash function (it will not work in the global scope)
#!/bin/bash
# Universal Bash parameter parsing
# Parse equal sign separated params into named local variables
# Standalone named parameter value will equal its param name (--force creates variable $force=="force")
# Parses multi-valued named params into an array (--path=path1 --path=path2 creates ${path[*]} array)
# Puts un-named params as-is into ${ARGV[*]} array
# Additionally puts all named params as-is into ${ARGN[*]} array
# Additionally puts all standalone "option" params as-is into ${ARGO[*]} array
# #author Oleksii Chekulaiev
# #version v1.4.1 (Jul-27-2018)
parse_params ()
{
local existing_named
local ARGV=() # un-named params
local ARGN=() # named params
local ARGO=() # options (--params)
echo "local ARGV=(); local ARGN=(); local ARGO=();"
while [[ "$1" != "" ]]; do
# Escape asterisk to prevent bash asterisk expansion, and quotes to prevent string breakage
_escaped=${1/\*/\'\"*\"\'}
_escaped=${_escaped//\'/\\\'}
_escaped=${_escaped//\"/\\\"}
# If equals delimited named parameter
nonspace="[^[:space:]]"
if [[ "$1" =~ ^${nonspace}${nonspace}*=..* ]]; then
# Add to named parameters array
echo "ARGN+=('$_escaped');"
# key is part before first =
local _key=$(echo "$1" | cut -d = -f 1)
# Just add as non-named when key is empty or contains space
if [[ "$_key" == "" || "$_key" =~ " " ]]; then
echo "ARGV+=('$_escaped');"
shift
continue
fi
# val is everything after key and = (protect from param==value error)
local _val="${1/$_key=}"
# remove dashes from key name
_key=${_key//\-}
# skip when key is empty
# search for existing parameter name
if (echo "$existing_named" | grep "\b$_key\b" >/dev/null); then
# if name already exists then it's a multi-value named parameter
# re-declare it as an array if needed
if ! (declare -p _key 2> /dev/null | grep -q 'declare \-a'); then
echo "$_key=(\"\$$_key\");"
fi
# append new value
echo "$_key+=('$_val');"
else
# single-value named parameter
echo "local $_key='$_val';"
existing_named=" $_key"
fi
# If standalone named parameter
elif [[ "$1" =~ ^\-${nonspace}+ ]]; then
# remove dashes
local _key=${1//\-}
# Just add as non-named when key is empty or contains space
if [[ "$_key" == "" || "$_key" =~ " " ]]; then
echo "ARGV+=('$_escaped');"
shift
continue
fi
# Add to options array
echo "ARGO+=('$_escaped');"
echo "local $_key=\"$_key\";"
# non-named parameter
else
# Escape asterisk to prevent bash asterisk expansion
_escaped=${1/\*/\'\"*\"\'}
echo "ARGV+=('$_escaped');"
fi
shift
done
}
#--------------------------- DEMO OF THE USAGE -------------------------------
show_use ()
{
eval $(parse_params "$#")
# --
echo "${ARGV[0]}" # print first unnamed param
echo "${ARGV[1]}" # print second unnamed param
echo "${ARGN[0]}" # print first named param
echo "${ARG0[0]}" # print first option param (--force)
echo "$anyparam" # print --anyparam value
echo "$k" # print k=5 value
echo "${multivalue[0]}" # print first value of multi-value
echo "${multivalue[1]}" # print second value of multi-value
[[ "$force" == "force" ]] && echo "\$force is set so let the force be with you"
}
show_use "param 1" --anyparam="my value" param2 k=5 --force --multi-value=test1 --multi-value=test2
getopts works great if #1 you have it installed and #2 you intend to run it on the same platform. OSX and Linux (for example) behave differently in this respect.
Here is a (non getopts) solution that supports equals, non-equals, and boolean flags. For example you could run your script in this way:
./script --arg1=value1 --arg2 value2 --shouldClean
# parse the arguments.
COUNTER=0
ARGS=("$#")
while [ $COUNTER -lt $# ]
do
arg=${ARGS[$COUNTER]}
let COUNTER=COUNTER+1
nextArg=${ARGS[$COUNTER]}
if [[ $skipNext -eq 1 ]]; then
echo "Skipping"
skipNext=0
continue
fi
argKey=""
argVal=""
if [[ "$arg" =~ ^\- ]]; then
# if the format is: -key=value
if [[ "$arg" =~ \= ]]; then
argVal=$(echo "$arg" | cut -d'=' -f2)
argKey=$(echo "$arg" | cut -d'=' -f1)
skipNext=0
# if the format is: -key value
elif [[ ! "$nextArg" =~ ^\- ]]; then
argKey="$arg"
argVal="$nextArg"
skipNext=1
# if the format is: -key (a boolean flag)
elif [[ "$nextArg" =~ ^\- ]] || [[ -z "$nextArg" ]]; then
argKey="$arg"
argVal=""
skipNext=0
fi
# if the format has not flag, just a value.
else
argKey=""
argVal="$arg"
skipNext=0
fi
case "$argKey" in
--source-scmurl)
SOURCE_URL="$argVal"
;;
--dest-scmurl)
DEST_URL="$argVal"
;;
--version-num)
VERSION_NUM="$argVal"
;;
-c|--clean)
CLEAN_BEFORE_START="1"
;;
-h|--help|-help|--h)
showUsage
exit
;;
esac
done
Yet another option parser (generator)
An elegant option parser for shell scripts (full support for all POSIX shells)
https://github.com/ko1nksm/getoptions (Update: v3.3.0 released on 2021-05-02)
getoptions is a new option parser (generator) written in POSIX-compliant shell script and released in august 2020. It is for those who want to support the POSIX / GNU style option syntax in your shell scripts.
The supported syntaxes are -a, +a, -abc, -vvv, -p VALUE, -pVALUE, --flag, --no-flag, --with-flag, --without-flag, --param VALUE, --param=VALUE, --option[=VALUE], --no-option --.
It supports subcommands, validation, abbreviated options, and automatic help generation. And works with all POSIX shells (dash 0.5.4+, bash 2.03+, ksh88+, mksh R28+, zsh 3.1.9+, yash 2.29+, busybox ash 1.1.3+, etc).
#!/bin/sh
VERSION="0.1"
parser_definition() {
setup REST help:usage -- "Usage: example.sh [options]... [arguments]..." ''
msg -- 'Options:'
flag FLAG -f --flag -- "takes no arguments"
param PARAM -p --param -- "takes one argument"
option OPTION -o --option on:"default" -- "takes one optional argument"
disp :usage -h --help
disp VERSION --version
}
eval "$(getoptions parser_definition) exit 1"
echo "FLAG: $FLAG, PARAM: $PARAM, OPTION: $OPTION"
printf '%s\n' "$#" # rest arguments
It's parses the following arguments:
example.sh -f --flag -p VALUE --param VALUE -o --option -oVALUE --option=VALUE 1 2 3
And automatic help generation.
$ example.sh --help
Usage: example.sh [options]... [arguments]...
Options:
-f, --flag takes no arguments
-p, --param PARAM takes one argument
-o, --option[=OPTION] takes one optional argument
-h, --help
--version
It is also an option parser generator, generates the following simple option parsing code. If you use the generated code, you won't need getoptions. Achieve true portability and zero dependency.
FLAG=''
PARAM=''
OPTION=''
REST=''
getoptions_parse() {
OPTIND=$(($#+1))
while OPTARG= && [ $# -gt 0 ]; do
case $1 in
--?*=*) OPTARG=$1; shift
eval 'set -- "${OPTARG%%\=*}" "${OPTARG#*\=}"' ${1+'"$#"'}
;;
--no-*|--without-*) unset OPTARG ;;
-[po]?*) OPTARG=$1; shift
eval 'set -- "${OPTARG%"${OPTARG#??}"}" "${OPTARG#??}"' ${1+'"$#"'}
;;
-[fh]?*) OPTARG=$1; shift
eval 'set -- "${OPTARG%"${OPTARG#??}"}" -"${OPTARG#??}"' ${1+'"$#"'}
OPTARG= ;;
esac
case $1 in
'-f'|'--flag')
[ "${OPTARG:-}" ] && OPTARG=${OPTARG#*\=} && set "noarg" "$1" && break
eval '[ ${OPTARG+x} ] &&:' && OPTARG='1' || OPTARG=''
FLAG="$OPTARG"
;;
'-p'|'--param')
[ $# -le 1 ] && set "required" "$1" && break
OPTARG=$2
PARAM="$OPTARG"
shift ;;
'-o'|'--option')
set -- "$1" "$#"
[ ${OPTARG+x} ] && {
case $1 in --no-*|--without-*) set "noarg" "${1%%\=*}"; break; esac
[ "${OPTARG:-}" ] && { shift; OPTARG=$2; } || OPTARG='default'
} || OPTARG=''
OPTION="$OPTARG"
shift ;;
'-h'|'--help')
usage
exit 0 ;;
'--version')
echo "${VERSION}"
exit 0 ;;
--)
shift
while [ $# -gt 0 ]; do
REST="${REST} \"\${$(($OPTIND-$#))}\""
shift
done
break ;;
[-]?*) set "unknown" "$1"; break ;;
*)
REST="${REST} \"\${$(($OPTIND-$#))}\""
esac
shift
done
[ $# -eq 0 ] && { OPTIND=1; unset OPTARG; return 0; }
case $1 in
unknown) set "Unrecognized option: $2" "$#" ;;
noarg) set "Does not allow an argument: $2" "$#" ;;
required) set "Requires an argument: $2" "$#" ;;
pattern:*) set "Does not match the pattern (${1#*:}): $2" "$#" ;;
notcmd) set "Not a command: $2" "$#" ;;
*) set "Validation error ($1): $2" "$#"
esac
echo "$1" >&2
exit 1
}
usage() {
cat<<'GETOPTIONSHERE'
Usage: example.sh [options]... [arguments]...
Options:
-f, --flag takes no arguments
-p, --param PARAM takes one argument
-o, --option[=OPTION] takes one optional argument
-h, --help
--version
GETOPTIONSHERE
}
I wanna submit my project : https://github.com/flyingangel/argparser
source argparser.sh
parse_args "$#"
Simple as that. The environment will be populated with variables with the same name as the arguments
This is how I do in a function to avoid breaking getopts run at the same time somewhere higher in stack:
function waitForWeb () {
local OPTIND=1 OPTARG OPTION
local host=localhost port=8080 proto=http
while getopts "h:p:r:" OPTION; do
case "$OPTION" in
h)
host="$OPTARG"
;;
p)
port="$OPTARG"
;;
r)
proto="$OPTARG"
;;
esac
done
...
}
I'd like to offer my version of option parsing, that allows for the following:
-s p1
--stage p1
-w somefolder
--workfolder somefolder
-sw p1 somefolder
-e=hello
Also allows for this (could be unwanted):
-s--workfolder p1 somefolder
-se=hello p1
-swe=hello p1 somefolder
You have to decide before use if = is to be used on an option or not. This is to keep the code clean(ish).
while [[ $# > 0 ]]
do
key="$1"
while [[ ${key+x} ]]
do
case $key in
-s*|--stage)
STAGE="$2"
shift # option has parameter
;;
-w*|--workfolder)
workfolder="$2"
shift # option has parameter
;;
-e=*)
EXAMPLE="${key#*=}"
break # option has been fully handled
;;
*)
# unknown option
echo Unknown option: $key #1>&2
exit 10 # either this: my preferred way to handle unknown options
break # or this: do this to signal the option has been handled (if exit isn't used)
;;
esac
# prepare for next option in this key, if any
[[ "$key" = -? || "$key" == --* ]] && unset key || key="${key/#-?/-}"
done
shift # option(s) fully processed, proceed to next input argument
done
There are several ways to parse cmdline args (e.g. GNU getopt (not portable) vs BSD (MacOS) getopt vs getopts) - all problematic. This solution
is portable!
has zero dependencies, only relies on bash built-ins
allows for both short and long options
handles whitespace or simultaneously the use of = separator between option and argument
supports concatenated short option style -vxf
handles option with optional arguments (E.g. --color vs --color=always),
correctly detects and reports unknown options
supports -- to signal end of options, and
doesn't require code bloat compared with alternatives for the same feature set. I.e. succinct, and therefore easier to maintain
Examples: Any of
# flag
-f
--foo
# option with required argument
-b"Hello World"
-b "Hello World"
--bar "Hello World"
--bar="Hello World"
# option with optional argument
--baz
--baz="Optional Hello"
#!/usr/bin/env bash
usage() {
cat - >&2 <<EOF
NAME
program-name.sh - Brief description
SYNOPSIS
program-name.sh [-h|--help]
program-name.sh [-f|--foo]
[-b|--bar <arg>]
[--baz[=<arg>]]
[--]
FILE ...
REQUIRED ARGUMENTS
FILE ...
input files
OPTIONS
-h, --help
Prints this and exits
-f, --foo
A flag option
-b, --bar <arg>
Option requiring an argument <arg>
--baz[=<arg>]
Option that has an optional argument <arg>. If <arg>
is not specified, defaults to 'DEFAULT'
--
Specify end of options; useful if the first non option
argument starts with a hyphen
EOF
}
fatal() {
for i; do
echo -e "${i}" >&2
done
exit 1
}
# For long option processing
next_arg() {
if [[ $OPTARG == *=* ]]; then
# for cases like '--opt=arg'
OPTARG="${OPTARG#*=}"
else
# for cases like '--opt arg'
OPTARG="${args[$OPTIND]}"
OPTIND=$((OPTIND + 1))
fi
}
# ':' means preceding option character expects one argument, except
# first ':' which make getopts run in silent mode. We handle errors with
# wildcard case catch. Long options are considered as the '-' character
optspec=":hfb:-:"
args=("" "$#") # dummy first element so $1 and $args[1] are aligned
while getopts "$optspec" optchar; do
case "$optchar" in
h) usage; exit 0 ;;
f) foo=1 ;;
b) bar="$OPTARG" ;;
-) # long option processing
case "$OPTARG" in
help)
usage; exit 0 ;;
foo)
foo=1 ;;
bar|bar=*) next_arg
bar="$OPTARG" ;;
baz)
baz=DEFAULT ;;
baz=*) next_arg
baz="$OPTARG" ;;
-) break ;;
*) fatal "Unknown option '--${OPTARG}'" "see '${0} --help' for usage" ;;
esac
;;
*) fatal "Unknown option: '-${OPTARG}'" "See '${0} --help' for usage" ;;
esac
done
shift $((OPTIND-1))
if [ "$#" -eq 0 ]; then
fatal "Expected at least one required argument FILE" \
"See '${0} --help' for usage"
fi
echo "foo=$foo, bar=$bar, baz=$baz, files=${#}"
Solution that preserves unhandled arguments. Demos Included.
Here is my solution. It is VERY flexible and unlike others, shouldn't require external packages and handles leftover arguments cleanly.
Usage is: ./myscript -flag flagvariable -otherflag flagvar2
All you have to do is edit the validflags line. It prepends a hyphen and searches all arguments. It then defines the next argument as the flag name e.g.
./myscript -flag flagvariable -otherflag flagvar2
echo $flag $otherflag
flagvariable flagvar2
The main code (short version, verbose with examples further down, also a version with erroring out):
#!/usr/bin/env bash
#shebang.io
validflags="rate time number"
count=1
for arg in $#
do
match=0
argval=$1
for flag in $validflags
do
sflag="-"$flag
if [ "$argval" == "$sflag" ]
then
declare $flag=$2
match=1
fi
done
if [ "$match" == "1" ]
then
shift 2
else
leftovers=$(echo $leftovers $argval)
shift
fi
count=$(($count+1))
done
#Cleanup then restore the leftovers
shift $#
set -- $leftovers
The verbose version with built in echo demos:
#!/usr/bin/env bash
#shebang.io
rate=30
time=30
number=30
echo "all args
$#"
validflags="rate time number"
count=1
for arg in $#
do
match=0
argval=$1
# argval=$(echo $# | cut -d ' ' -f$count)
for flag in $validflags
do
sflag="-"$flag
if [ "$argval" == "$sflag" ]
then
declare $flag=$2
match=1
fi
done
if [ "$match" == "1" ]
then
shift 2
else
leftovers=$(echo $leftovers $argval)
shift
fi
count=$(($count+1))
done
#Cleanup then restore the leftovers
echo "pre final clear args:
$#"
shift $#
echo "post final clear args:
$#"
set -- $leftovers
echo "all post set args:
$#"
echo arg1: $1 arg2: $2
echo leftovers: $leftovers
echo rate $rate time $time number $number
Final one, this one errors out if an invalid -argument is passed through.
#!/usr/bin/env bash
#shebang.io
rate=30
time=30
number=30
validflags="rate time number"
count=1
for arg in $#
do
argval=$1
match=0
if [ "${argval:0:1}" == "-" ]
then
for flag in $validflags
do
sflag="-"$flag
if [ "$argval" == "$sflag" ]
then
declare $flag=$2
match=1
fi
done
if [ "$match" == "0" ]
then
echo "Bad argument: $argval"
exit 1
fi
shift 2
else
leftovers=$(echo $leftovers $argval)
shift
fi
count=$(($count+1))
done
#Cleanup then restore the leftovers
shift $#
set -- $leftovers
echo rate $rate time $time number $number
echo leftovers: $leftovers
Pros: What it does, it handles very well. It preserves unused arguments which a lot of the other solutions here don't. It also allows for variables to be called without being defined by hand in the script. It also allows prepopulation of variables if no corresponding argument is given. (See verbose example).
Cons: Can't parse a single complex arg string e.g. -xcvf would process as a single argument. You could somewhat easily write additional code into mine that adds this functionality though.
Based on other answers here, this my version:
#!/bin/bash
set -e
function parse() {
for arg in "$#"; do # transform long options to short ones
shift
case "$arg" in
"--name") set -- "$#" "-n" ;;
"--verbose") set -- "$#" "-v" ;;
*) set -- "$#" "$arg"
esac
done
while getopts "n:v" optname # left to ":" are flags that expect a value, right to the ":" are flags that expect nothing
do
case "$optname" in
"n") name=${OPTARG} ;;
"v") verbose=true ;;
esac
done
shift "$((OPTIND-1))" # shift out all the already processed options
}
parse "$#"
echo "hello $name"
if [ ! -z $verbose ]; then echo 'nice to meet you!'; fi
Usage:
$ ./parse.sh
hello
$ ./parse.sh -n YOUR_NAME
hello YOUR_NAME
$ ./parse.sh -n YOUR_NAME -v
hello YOUR_NAME
nice to meet you!
$ ./parse.sh -v -n YOUR_NAME
hello YOUR_NAME
nice to meet you!
$ ./parse.sh -v
hello
nice to meet you!
Here is my approach - using regexp.
no getopts
it handles block of short parameters -qwerty
it handles short parameters -q -w -e
it handles long options --qwerty
you can pass attribute to short or long option (if you are using block of short options, attribute is attached to the last option)
you can use spaces or = to provide attributes, but attribute matches until encountering hyphen+space "delimiter", so in --q=qwe ty qwe ty is one attribute
it handles mix of all above so -o a -op attr ibute --option=att ribu te --op-tion attribute --option att-ribute is valid
script:
#!/usr/bin/env sh
help_menu() {
echo "Usage:
${0##*/} [-h][-l FILENAME][-d]
Options:
-h, --help
display this help and exit
-l, --logfile=FILENAME
filename
-d, --debug
enable debug
"
}
parse_options() {
case $opt in
h|help)
help_menu
exit
;;
l|logfile)
logfile=${attr}
;;
d|debug)
debug=true
;;
*)
echo "Unknown option: ${opt}\nRun ${0##*/} -h for help.">&2
exit 1
esac
}
options=$#
until [ "$options" = "" ]; do
if [[ $options =~ (^ *(--([a-zA-Z0-9-]+)|-([a-zA-Z0-9-]+))(( |=)(([\_\.\?\/\\a-zA-Z0-9]?[ -]?[\_\.\?a-zA-Z0-9]+)+))?(.*)|(.+)) ]]; then
if [[ ${BASH_REMATCH[3]} ]]; then # for --option[=][attribute] or --option[=][attribute]
opt=${BASH_REMATCH[3]}
attr=${BASH_REMATCH[7]}
options=${BASH_REMATCH[9]}
elif [[ ${BASH_REMATCH[4]} ]]; then # for block options -qwert[=][attribute] or single short option -a[=][attribute]
pile=${BASH_REMATCH[4]}
while (( ${#pile} > 1 )); do
opt=${pile:0:1}
attr=""
pile=${pile/${pile:0:1}/}
parse_options
done
opt=$pile
attr=${BASH_REMATCH[7]}
options=${BASH_REMATCH[9]}
else # leftovers that don't match
opt=${BASH_REMATCH[10]}
options=""
fi
parse_options
fi
done
Mixing positional and flag-based arguments
--param=arg (equals delimited)
Freely mixing flags between positional arguments:
./script.sh dumbo 127.0.0.1 --environment=production -q -d
./script.sh dumbo --environment=production 127.0.0.1 --quiet -d
can be accomplished with a fairly concise approach:
# process flags
pointer=1
while [[ $pointer -le $# ]]; do
param=${!pointer}
if [[ $param != "-"* ]]; then ((pointer++)) # not a parameter flag so advance pointer
else
case $param in
# paramter-flags with arguments
-e=*|--environment=*) environment="${param#*=}";;
--another=*) another="${param#*=}";;
# binary flags
-q|--quiet) quiet=true;;
-d) debug=true;;
esac
# splice out pointer frame from positional list
[[ $pointer -gt 1 ]] \
&& set -- ${#:1:((pointer - 1))} ${#:((pointer + 1)):$#} \
|| set -- ${#:((pointer + 1)):$#};
fi
done
# positional remain
node_name=$1
ip_address=$2
--param arg (space delimited)
It's usualy clearer to not mix --flag=value and --flag value styles.
./script.sh dumbo 127.0.0.1 --environment production -q -d
This is a little dicey to read, but is still valid
./script.sh dumbo --environment production 127.0.0.1 --quiet -d
Source
# process flags
pointer=1
while [[ $pointer -le $# ]]; do
if [[ ${!pointer} != "-"* ]]; then ((pointer++)) # not a parameter flag so advance pointer
else
param=${!pointer}
((pointer_plus = pointer + 1))
slice_len=1
case $param in
# paramter-flags with arguments
-e|--environment) environment=${!pointer_plus}; ((slice_len++));;
--another) another=${!pointer_plus}; ((slice_len++));;
# binary flags
-q|--quiet) quiet=true;;
-d) debug=true;;
esac
# splice out pointer frame from positional list
[[ $pointer -gt 1 ]] \
&& set -- ${#:1:((pointer - 1))} ${#:((pointer + $slice_len)):$#} \
|| set -- ${#:((pointer + $slice_len)):$#};
fi
done
# positional remain
node_name=$1
ip_address=$2
Note that getopt(1) was a short living mistake from AT&T.
getopt was created in 1984 but already buried in 1986 because it was not really usable.
A proof for the fact that getopt is very outdated is that the getopt(1) man page still mentions "$*" instead of "$#", that was added to the Bourne Shell in 1986 together with the getopts(1) shell builtin in order to deal with arguments with spaces inside.
BTW: if you are interested in parsing long options in shell scripts, it may be of interest to know that the getopt(3) implementation from libc (Solaris) and ksh93 both added a uniform long option implementation that supports long options as aliases for short options. This causes ksh93 and the Bourne Shell to implement a uniform interface for long options via getopts.
An example for long options taken from the Bourne Shell man page:
getopts "f:(file)(input-file)o:(output-file)" OPTX "$#"
shows how long option aliases may be used in both Bourne Shell and ksh93.
See the man page of a recent Bourne Shell:
http://schillix.sourceforge.net/man/man1/bosh.1.html
and the man page for getopt(3) from OpenSolaris:
http://schillix.sourceforge.net/man/man3c/getopt.3c.html
and last, the getopt(1) man page to verify the outdated $*:
http://schillix.sourceforge.net/man/man1/getopt.1.html
I have write a bash helper to write a nice bash tool
project home: https://gitlab.mbedsys.org/mbedsys/bashopts
example:
#!/bin/bash -ei
# load the library
. bashopts.sh
# Enable backtrace dusplay on error
trap 'bashopts_exit_handle' ERR
# Initialize the library
bashopts_setup -n "$0" -d "This is myapp tool description displayed on help message" -s "$HOME/.config/myapprc"
# Declare the options
bashopts_declare -n first_name -l first -o f -d "First name" -t string -i -s -r
bashopts_declare -n last_name -l last -o l -d "Last name" -t string -i -s -r
bashopts_declare -n display_name -l display-name -t string -d "Display name" -e "\$first_name \$last_name"
bashopts_declare -n age -l number -d "Age" -t number
bashopts_declare -n email_list -t string -m add -l email -d "Email adress"
# Parse arguments
bashopts_parse_args "$#"
# Process argument
bashopts_process_args
will give help:
NAME:
./example.sh - This is myapp tool description displayed on help message
USAGE:
[options and commands] [-- [extra args]]
OPTIONS:
-h,--help Display this help
-n,--non-interactive true Non interactive mode - [$bashopts_non_interactive] (type:boolean, default:false)
-f,--first "John" First name - [$first_name] (type:string, default:"")
-l,--last "Smith" Last name - [$last_name] (type:string, default:"")
--display-name "John Smith" Display name - [$display_name] (type:string, default:"$first_name $last_name")
--number 0 Age - [$age] (type:number, default:0)
--email Email adress - [$email_list] (type:string, default:"")
enjoy :)
Assume we create a shell script named test_args.sh as follow
#!/bin/sh
until [ $# -eq 0 ]
do
name=${1:1}; shift;
if [[ -z "$1" || $1 == -* ]] ; then eval "export $name=true"; else eval "export $name=$1"; shift; fi
done
echo "year=$year month=$month day=$day flag=$flag"
After we run the following command:
sh test_args.sh -year 2017 -flag -month 12 -day 22
The output would be:
year=2017 month=12 day=22 flag=true
Here is a getopts that achieves the parsing with minimal code and allows you to define what you wish to extract in one case using eval with substring.
Basically eval "local key='val'"
function myrsync() {
local backup=("${#}") args=(); while [[ $# -gt 0 ]]; do k="$1";
case "$k" in
---sourceuser|---sourceurl|---targetuser|---targeturl|---file|---exclude|---include)
eval "local ${k:3}='${2}'"; shift; shift # Past two arguments
;;
*) # Unknown option
args+=("$1"); shift; # Past argument only
;;
esac
done; set -- "${backup[#]}" # Restore $#
echo "${sourceurl}"
}
Declares the variables as locals instead of globals as most answers here.
Called as:
myrsync ---sourceurl http://abc.def.g ---sourceuser myuser ...
The ${k:3} is basically a substring to remove the first --- from the key.
I wanted to share what I made for parsing options.
Some of my needs were not fulfilled by the answers here so I had to come up with this: https://github.com/MihirLuthra/bash_option_parser
This supports:
Suboption parsing
Alias names for options
Optional args
Variable args
Printing usage and errors
Let's say we have a command named fruit with usage as follows:
fruit <fruit-name> ...
[-e|—-eat|—-chew]
[-c|--cut <how> <why>]
<command> [<args>]
-e takes no args
-c takes two args i.e. how to cut and why to cut
fruit itself takes at least one argument.
<command> is for suboptions like apple, orange etc. (similar to git which has suboptions commit, push etc. )
So to parse it:
parse_options \
'fruit' '1 ...' \
'-e' , '--eat' , '--chew' '0' \
'-c' , '--cut' '1 1' \
'apple' 'S' \
'orange' 'S' \
';' \
"$#"
Now if there was any usage error, it can be printed using option_parser_error_msg as follows:
retval=$?
if [ $retval -ne 0 ]; then
# this will manage error messages if
# insufficient or extra args are supplied
option_parser_error_msg "$retval"
# This will print the usage
print_usage 'fruit'
exit 1
fi
To check now if some options was passed,
if [ -n "${OPTIONS[-c]}" ]
then
echo "-c was passed"
# args can be accessed in a 2D-array-like format
echo "Arg1 to -c = ${ARGS[-c,0]}"
echo "Arg2 to -c = ${ARGS[-c,1]}"
fi
Suboption parsing can also be done by passing $shift_count to parse_options_detailed which makes it start parsing after shifting args to reach args of suboption. It is demonstrated in this example.
A detailed description is provided in the readme and examples
in the repository.

Php script as daemon

I am new to php daemons. I am using the below script to fire Daemon.php script. But i am getting error while executing this below bash script via shell
The error is,
exit: 0RETVAL=0: numeric argument required
Please help me resolve this error
#!/bin/bash
#
# /etc/init.d/Daemon
#
# Starts the at daemon
#
# chkconfig: 345 95 5
# description: Runs the demonstration daemon.
# processname: Daemon
# Source function library.
#. /etc/init.d/functions
#startup values
log=/var/log/Daemon.log
#verify that the executable exists
test -x /home/godlikemouse/Daemon.php || exit 0RETVAL=0
#
# Set prog, proc and bin variables.
#
prog="Daemon"
proc=/var/lock/subsys/Daemon
bin=/home/godlikemouse/Daemon.php
start() {
# Check if Daemon is already running
if [ ! -f $proc ]; then
echo -n $"Starting $prog: "
daemon $bin --log=$log
RETVAL=$?
[ $RETVAL -eq 0 ] && touch $proc
echo
fi
return $RETVAL
}
stop() {
echo -n $"Stopping $prog: "
killproc $bin
RETVAL=$?
[ $RETVAL -eq 0 ] && rm -f $proc
echo
return $RETVAL
}
restart() {
stop
start
}
reload() {
restart
}
status_at() {
status $bin
}
case "$1" in
start)
start
;;
stop)
stop
;;
reload|restart)
restart
;;
condrestart)
if [ -f $proc ]; then
restart
fi
;;
status)
status_at
;;
*)
echo $"Usage: $0 {start|stop|restart|condrestart|status}"
exit 1
esac
exit $?
exit $RETVAL
This line produces the error:
test -x /home/godlikemouse/Daemon.php || exit 0RETVAL=0
If you want to set the the value of RETVAL to 0 you first need to remove the 0 as you can not have variables that start with a number.
Then you remove the value set from the second statement so it will exit in case Daemon.php does not exist.
test -x /home/godlikemouse/Daemon.php || exit
You can also remove the 2 empty echo statements inside the start and stop functions as the do nothing.
There are also errors in the case statement. You need to quote the case options and can remove the last exit block as the exit $? will trigger the exit before.
case "$1" in
"start")
start
;;
"stop")
stop
;;
"reload"|"restart")
restart
;;
"condrestart")
if [ -f $proc ]; then
restart
fi
;;
"status")
status_at
;;
There is several syntax and logic errors in this script presented. To highlight several:
echo $"Usage (should be just echo "Usage ..." since the string in ".." is not a variable
Double exit statements, the second one for $RETVAL is never ran.
exit 0RETVAL is not the same as exit $RETVAL, and one should just be using exit 1 instead to denote an error, exit 0 means the script ran correctly
$prog is defined but never used
test -x is to check for executable bit enabled in the given path. test -f is safer when testing for a file, test -d safer for testing directories, and test -L is safer when testing symlinks. Combine the test -f and test -x to ensure there is no race conditions or worst. (example: (test -f /home/godlikemouse/Daemon.php && test -x /home/godlikemouse/Daemon.php) || exit 1))
Further details on creating sysv init scripts can be read at http://refspecs.linuxbase.org/LSB_3.0.0/LSB-generic/LSB-generic/iniscrptact.html and bash scripting can be read at http://www.tldp.org/LDP/abs/html/index.html. It is strongly encouraged to learn both before writing system control programs such as init scripts.

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