# Extract filename and extension in bash

I want to get the filename (without extension) and the extension separately.

The best solution I found so far is:

NAME=echo "$FILE" | cut -d'.' -f1 EXTENSION=echo "$FILE" | cut -d'.' -f2


This is wrong because it doesn't work if the file name contains multiple "." characters. If let's say I have a.b.js it will consider a and b.js, instead of a.b and js.

It can be easily done in Python with

file, ext = os.path.splitext(path)


but I'd prefer not to fire a Python interpreter just for this, if possible.

Any better ideas?

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This question explains this bash technique and several other related ones. –  jjclarkson Jun 12 '09 at 20:34
When applying the great answers below, do not simply paste in your variable like I show here Wrong: extension="{$filename##*.}" like I did for a while! Move the $ outside the curlys: Right: extension="${filename##*.}" – Chris K Aug 7 '13 at 18:51 ## 23 Answers First, get file without path: filename=$(basename "$fullfile") extension="${filename##*.}"
filename="${filename%.*}"  Alternatively, you can focus on the last '/' of the path instead of the '.' which should work even if you have unpredictable file extensions: filename="${fullfile##*/}"

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Check out gnu.org/software/bash/manual/html_node/… for the full feature set. –  D.Shawley Jun 8 '09 at 14:08
Add some quotes to "$fullfile", or you'll risk breaking the filename. – lhunath Jun 8 '09 at 14:34 Heck, you could even write filename="${fullfile##*/}" and avoid calling an extra basename –  ephemient Jun 9 '09 at 17:52
Couple years later and still thanks –  vol7ron Nov 29 '11 at 20:16
I wish I could upvote each time I fall back on this answer because I can't remember. –  Boris Guéry Jan 23 '13 at 9:02
~% FILE="example.tar.gz"
~% echo "${FILE%%.*}" example ~% echo "${FILE%.*}"
example.tar
~% echo "${FILE#*.}" tar.gz ~% echo "${FILE##*.}"
gz


For more details see shell parameter expansion in the bash manual.

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You (perhaps unintentionally) bring up the excellent question of what to do if the "extension" part of the filename has 2 dots in it, as in .tar.gz... I've never considered that issue, and I suspect it's not solvable without knowing all the possible valid file extensions up front. –  rmeador Jun 8 '09 at 14:50
Why not solvable? In my example, it should be considered that the file contains two extensions, not an extension with two dots. You handle both extensions separately. –  Juliano Jun 8 '09 at 15:20
It is unsolvable on a lexical basis, you'll need to check the file type. Consider if you had a game called dinosaurs.in.tar and you gzipped it to dinosaurs.in.tar.gz :) –  Porges Jun 13 '09 at 9:11
This gets more complicated if you are passing in full paths. One of mine had a '.' in a directory in the middle of the path, but none in the file name. Example "a/b.c/d/e/filename" would wind up ".c/d/e/filename" –  Walt Sellers Mar 5 '12 at 18:49
clearly no x.tar.gz's extension is gz and the filename is x.tar that is it. There is no such thing as dual extensions. i'm pretty sure boost::filesystem handles it that way. (split path, change_extension...) and its behavior is based on python if I'm not mistaken. –  v.oddou Nov 26 '13 at 7:29

Usually you already know the extension, so you might wish to use:

basename filename .extension


for example:

basename /path/to/dir/filename.txt .txt


and we get

filename

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That second argument to basename is quite the eye-opener, ty kind sir/madam :) –  akaIDIOT Jan 23 '13 at 9:37
And how to extract the extension, using this technique? ;) Oh, wait! We actually don't know it upfront. –  Tomasz Gandor Feb 13 at 11:48
Say you have a zipped directory that either ends with .zip or .ZIP. Is there a way you could do something like basename $file {.zip,.ZIP}? – Dennis Mar 30 at 20:56 That doesn't seem to work if the file has no extension, or no filename. Here is what I'm using; it only uses builtins and handles more (but not all) pathological filenames. #!/bin/bash for fullpath in "$@"
do
filename="${fullpath##*/}" # Strip longest match of */ from start dir="${fullpath:0:${#fullpath} -${#filename}}" # Substring from 0 thru pos of filename
base="${filename%.[^.]*}" # Strip shortest match of . plus at least one non-dot char from end ext="${filename:${#base} + 1}" # Substring from len of base thru end if [[ -z "$base" && -n "$ext" ]]; then # If we have an extension and no base, it's really the base base=".$ext"
ext=""
fi

echo -e "$fullpath:\n\tdir = \"$dir\"\n\tbase = \"$base\"\n\text = \"$ext\""
done


And here are some testcases:

$basename-and-extension.sh / /home/me/ /home/me/file /home/me/file.tar /home/me/file.tar.gz /home/me/.hidden /home/me/.hidden.tar /home/me/.. . /: dir = "/" base = "" ext = "" /home/me/: dir = "/home/me/" base = "" ext = "" /home/me/file: dir = "/home/me/" base = "file" ext = "" /home/me/file.tar: dir = "/home/me/" base = "file" ext = "tar" /home/me/file.tar.gz: dir = "/home/me/" base = "file.tar" ext = "gz" /home/me/.hidden: dir = "/home/me/" base = ".hidden" ext = "" /home/me/.hidden.tar: dir = "/home/me/" base = ".hidden" ext = "tar" /home/me/..: dir = "/home/me/" base = ".." ext = "" .: dir = "" base = "." ext = ""  - Instead of dir="${fullpath:0:${#fullpath} -${#filename}}" I've often seen dir="${fullpath%$filename}". It's simpler to write. Not sure if there is any real speed difference or gotchas. –  dubiousjim May 30 '12 at 21:37
This uses #!/bin/bash which is almost always wrong. Prefer #!/bin/sh if possible or #!/usr/bin/env bash if not. –  Good Person May 25 '13 at 20:32
@Good Person: I don't know how it's almost always wrong: which bash -> /bin/bash ; perhaps it's your distro? –  vol7ron Jul 10 '13 at 22:30
@GoodPerson but if you are more comfortable with bash, why use sh? Isn't that like saying, why use Perl when you can use sh? –  vol7ron Jul 12 '13 at 22:08
@GoodPerson bash is default for Linux, MacOS X, and has ports to Windows through cygwin. In all that I've tried in the past two days, the path has resulted to /bin/bash. Not to mention, you can set the option flag --posix to adhere to POSIX 1003.2 standard, if you really care. That shouldn't matter since its popularity has vastly increased since 2005, especially with the growing popularity of Apple/Linux products, so I'm curious what exactly you'd be porting to that doesn't have it by default. –  vol7ron Jul 13 '13 at 2:12

Mellen writes in a comment on a blog post:

Using bash there’s also ${file%.*} to get the filename without the extension and ${file##*.} to get the extension alone. I.e.

file="thisfile.txt"
echo "filename: ${file%.*}" echo "extension:${file##*.}"


outputs:

filename: thisfile
extension: txt

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How exactly does this syntax work? –  REACHUS Oct 15 at 11:26
@REACHUS: See gnu.org/software/bash/manual/html_node/… –  mklement0 Dec 9 at 15:30
pax> echo a.b.js | sed 's/\.[^\.]*$//' a.b pax> echo a.b.js | sed 's/^.*\.//' js  works fine, so you can just use: pax> FILE=a.b.js pax> NAME=$(echo "$FILE" | sed 's/\.[^\.]*$//')
pax> EXTENSION=$(echo "$FILE" | sed 's/^.*\.//')
pax> echo $NAME a.b pax> echo$EXTENSION
js


The commands, by the way, work as follows.

The NAME sed string substitutes a . character followed by any number of non-"." characters up to the end of the line, with nothing (i.e., it removes everything from the final "." to the end of the line, inclusive). This is basically a non-greedy substitution using regex trickery.

The EXTENSION sed string substitutes a any number of characters followed by a "." character at the start of the line, with nothing (i.e., it removes everything from the start of the line to the final dot, inclusive). This is a greedy substitution which is the default action.

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i thinks that if you just need the name of the file, can try this:

FULLPATH=/usr/share/X11/xorg.conf.d/50-synaptics.conf
# remove all the prefix until "/" character
FILENAME=${FULLPATH##*/} # remove all the prefix unitl "." character FILEEXTENSION=${FILENAME##*.}
# remove a suffix, in our cas, the filename, this will return the name of the directory that contains this file
BASEDIRECTORY=${FULLPATH%$FILENAME}

echo "path = $FULLPATH" echo "file name =$FILENAME"
echo "file extension = $FILEEXTENSION" echo "base directory =$BASEDIRECTORY"


and that is all =D.

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Just wanted BASEDIRECTORY :) Thanks! –  Carlos Ricardo Dec 9 '12 at 20:42
$F = "text file.test.txt"$ echo ${F/*./} txt  This caters for multiple dots and spaces in a filename, however if there is no extension it returns the filename itself. Easy to check for though; just test for the filename and extension being the same. Naturally this method doesn't work for .tar.gz files. However that could be handled in a two step process. If the extension is gz then check again to see if there is also a tar extension. - Here is a code with awk.. It can be done more simply. But i am not good in awk. filename$ ls
abc.a.txt  a.b.c.txt  pp-kk.txt
filename$find . -type f | awk -F/ '{print$2}' | rev | awk -F"." '{$1="";print}' | rev | awk 'gsub(" ",".") ,sub(".$", "")'
abc.a
a.b.c
pp-kk
filename$find . -type f | awk -F/ '{print$2}' | awk -F"." '{print $NF}' txt txt txt  - You shouldn't need the first awk statement in the last example, right? – BHSPitMonkey Apr 5 '13 at 21:13 Ok so if I understand correctly, the problem here is how to get the name and the full extension of a file that has multiple extensions, e.g., stuff.tar.gz. This works for me: fullfile="stuff.tar.gz" fileExt=${fullfile#*.}
fileName=${fullfile%*.$fileExt}


This will give you "stuff" as filename and ".tar.gz" as extension. It works for any number of extensions, including 0. Hope this helps for anyone having the same problem =)

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You can force cut to display all fields and subsequent ones adding - to field number.

NAME=basename "$FILE" EXTENSION=echo "$NAME" | cut -d'.' -f2-


So if FILE is eth0.pcap.gz, the EXTENSION will be pcap.gz

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From the answers above, the shortest oneliner to mimic pythons

file, ext = os.path.splitext(path)


presuming your file really does have an extension, is

EXT="${PATH##*.}"; FILE=$(basename "$PATH" .$EXT)

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I wouldnt know what to explain. I added some blurb now. –  commonpike Jan 3 at 12:33
It's nice now. Somebody have flagged it as low quality. –  DontVoteMeDown Jan 3 at 13:35
I've got downvotes on this. I'm considering to remove the answer, people somehow dislike it. –  commonpike Dec 11 at 11:26

### Magic file recognition

In addition to the lot of good answer on this SO question I would like to add:

Under Linux and other un*x, there is a magic command named file, that do filetype detection by analysing some first bytes of file. This is a very old tool, initialy used for print servers (if not created for... I'm not sure about that).

file myfile.txt
myfile.txt: UTF-8 Unicode text

file -b --mime-type myfile.txt
text/plain


Standards extensions could be founds in /etc/mime.types (on my Debian GNU/Linux desktop. See man file and man mime.types. Perhaps you have to install file utility and mime-support packages)

grep $( file -b --mime-type myfile.txt ) </etc/mime.types text/plain asc txt text pot brf srt  You could create a function for determining right extension. There is a little (not perfect) sample: file2ext() { local _mimetype=$(file -Lb --mime-type "$1") _line _basemimetype case${_mimetype##*[/.-]} in
gzip | bzip2 | xz | z )
_mimetype=${_mimetype##*[/.-]} _mimetype=${_mimetype//ip}
_basemimetype=$(file -zLb --mime-type "$1")
;;
stream )
_mimetype=($(file -Lb "$1"))
[ "${_mimetype[1]}" = "compressed" ] && _basemimetype=$(file -b --mime-type - < <(
${_mimetype,,} -d <"$1")) ||
_basemimetype=${_mimetype,,} _mimetype=${_mimetype,,}
;;
executable )  _mimetype='' _basemimetype='' ;;
dosexec )     _mimetype='' _basemimetype='exe' ;;
shellscript ) _mimetype='' _basemimetype='sh' ;;
* )
_basemimetype=$_mimetype _mimetype='' ;; esac while read -a _line ;do if [ "$_line" == "$_basemimetype" ] ;then [ "$_line[1]" ] &&
_basemimetype=${_line[1]} || _basemimetype=${_basemimetype##*[/.-]}
break
fi
done </etc/mime.types
case ${_basemimetype##*[/.-]} in executable ) _basemimetype='' ;; shellscript ) _basemimetype='sh' ;; dosexec ) _basemimetype='exe' ;; * ) ;; esac [ "$_mimetype" ] && [ "$_basemimetype" != "$_mimetype" ] &&
printf ${2+-v}$2 "%s.%s" ${_basemimetype##*[/.-]}${_mimetype##*[/.-]} ||
printf ${2+-v}$2 "%s" ${_basemimetype##*[/.-]} }  This function could set a bash variable that can be used later: (This is inspired from @Petesh right answer): filename=$(basename "$fullfile") filename="${filename%.*}"
file2ext "$fullfile" extension echo "$fullfile -> $filename .$extension"

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Based largely off of @mklement0's excellent, and chock-full of random, useful bashisms - as well as other answers to this / other questions / "that darn internet"... I wrapped it all up in a little, slightly more comprehensible, reusable function for my (or your) .bash_profile that takes care of what (I consider) should be a more robust version of dirname/basename / what have you..

function path { SAVEIFS=$IFS; IFS="" # stash IFS for safe-keeping, etc. [[$# != 2 ]] && echo "usage: path <path> <dir|name|fullname|ext>" && return    # demand 2 arguments
[[ $1 =~ ^(.*/)?(.+)?$ ]] && {     # regex parse the path
dir=${BASH_REMATCH[1]} file=${BASH_REMATCH[2]}
ext=$([[$file = *.* ]] && printf %s ${file##*.} || printf '') # edge cases for extesionless files and files like ".nesh_profile.coffee" [[$file == $ext ]] && fnr=$file && ext='' || fnr=${file:0:$((${#file}-${#ext}))}
case "$2" in dir) echo "${dir%/*}"; ;;
name) echo      "${fnr%.*}"; ;; fullname) echo "${fnr%.*}.$ext"; ;; ext) echo "$ext"; ;;
esac
}
IFS=$SAVEIFS }  Usage examples... SOMEPATH=/path/to.some/.random\ file.gzip path$SOMEPATH dir        # /path/to.some
path $SOMEPATH name # .random file path$SOMEPATH ext        # gzip
path $SOMEPATH fullname # .random file.gzip path gobbledygook # usage: -bash <path> <dir|name|fullname|ext>  - Nicely done; a few suggestions: - You don't seem to be relying on $IFS at all (and if you were, you could use local to localize the effect of setting it). - Better to use local variables. - Your error message should be output to stderr, not stdout (use 1>&2), and you should return a non-zero exit code. - Better to rename fullname to basename (the former suggests a path with dir components). - name unconditionally appends a . (period), even if the original had none. You could simply use the basename utility, but note that it ignores a terminating /. –  mklement0 Nov 26 '13 at 14:18

How to extract the filename and extension in fish:

function split-filename-extension --description "Prints the filename and extension"
for file in $argv if test -f$file
set --local extension (echo $file | awk -F. '{print$NF}')
set --local filename (basename $file .$extension)
echo "$filename$extension"
else
echo "$file is not a valid file" end end end  Caveats: Splits on the last dot, which works well for filenames with dots in them, but not well for extensions with dots in them. See example below. Usage: $ split-filename-extension foo-0.4.2.zip bar.tar.gz
foo-0.4.2 zip  # Looks good!
bar.tar gz  # Careful, you probably want .tar.gz as the extension.


There's probably better ways to do this. Feel free to edit my answer to improve it.

If there's a limited set of extensions you'll be dealing with and you know all of them, try this:

switch $file case *.tar echo (basename$file .tar) tar
case *.tar.bz2
echo (basename $file .tar.bz2) tar.bz2 case *.tar.gz echo (basename$file .tar.gz) tar.gz
# and so on
end


This does not have the caveat as the first example, but you do have to handle every case so it could be more tedious depending on how many extensions you can expect.

-
awk '{z=split($NF,y,".");if(z-1)print y[z]}' FS=/  Input b .js b.js a.b.js ./b ./.js ./b.js ./a.b.js a.b/b  Output js js js js js js  - [Revised from a one-liner to a generic bash function, behavior now consistent with dirname and basename utilities; rationale added.] The accepted answer works well in typical cases, but fails in edge cases, namely: • For filenames without extension, extension=${filename##*.} returns the input filename rather than an empty string.
• extension=${filename##*.} does not include the initial ., contrary to convention. • Blindly prepending . would not work for filenames without extensions. • filename="${filename%.*}" will be the empty string, if the input file name starts with . and contains no further . characters (e.g., .bash_profile) - contrary to convention.

Thus, the complexity of a robust solution that covers all edge cases calls for a function - see its definition below; it can return all components of a path.

Example call:

splitPath '/etc/bash.bashrc' dir fname fnameroot extension
# -> $dir == '/etc' # ->$fname == 'bash.bashrc'
# -> $fnameroot == 'bash' # ->$extension == '.bashrc'


Note that the arguments after the input path are freely chosen, positional variable names.
To skip variables not of interest that come before those that are, specify ''; e.g., to extract filename root and extension only, use splitPath '/etc/bash.bashrc' '' '' fnameroot extension.

# SYNOPSIS
#   splitPath path varDirname [varBasename [varBasenameRoot [varExtension]]]
# DESCRIPTION
#   Splits the specified input path into its components and returns them by assigning
#   them to variables with the specified *names*.
#   Specify '' to skip earlier variables, if necessary.
#   The filename extension, if any, always starts with '.' - only the *last*
#   '.'-prefixed token is reported as the extension.
#   As with dirname, varDirname will report '.' (current dir) for input paths
#   that are mere filenames, and '/' for the root dir.
#   As with dirname and basename, a trailing '/' in the input path is ignored.
#   A '.' as the very first char. of a filename is NOT considered the beginning
#   of a filename extension.
# EXAMPLE
#   splitPath '/home/jdoe/readme.txt' parentpath fname fnameroot ext
#   echo "$parentpath" # -> '/home/jdoe' # echo "$fname" # -> 'readme.txt'
#   echo "$fnameroot" # -> 'readme' # echo "$ext" # -> '.txt'
#   ---
#   splitPath '/home/jdoe/readme.txt' '' '' fnameroot
#   echo "$fnameroot" # -> 'readme' splitPath() { local _sp_dirname= _sp_basename= _sp_basename_root= _sp_ext= # simple argument validation (($# >= 2 )) || { echo "$FUNCNAME: ERROR: Specify an input path and at least 1 output variable name." >&2; exit 2; } # extract dirname (parent path) and basename (filename) _sp_dirname=$(dirname "$1") _sp_basename=$(basename "$1") # determine extension, if any _sp_ext=$([[ $_sp_basename = *.* ]] && printf %s ".${_sp_basename##*.}" || printf '')
# determine basename root (filemane w/o extension)
if [[ "$_sp_basename" == "$_sp_ext" ]]; then # does filename start with '.'?
_sp_basename_root=$_sp_basename _sp_ext='' else # strip extension from filename _sp_basename_root=${_sp_basename%$_sp_ext} fi # assign to output vars. [[ -n$2 ]] && printf -v "$2" "$_sp_dirname"
[[ -n $3 ]] && printf -v "$3" "$_sp_basename" [[ -n$4 ]] && printf -v "$4" "$_sp_basename_root"
[[ -n $5 ]] && printf -v "$5" "$_sp_ext" return 0 }  Test code that exercises the function: test_paths=( '/etc/bash.bashrc' '/usr/bin/grep' '/Users/jdoe/.bash_profile' '/Library/Application Support/' 'readme.new.txt' ) for p in "${test_paths[@]}"; do
echo ----- "$p" parentpath= fname= fnameroot= ext= splitPath "$p" parentpath fname fnameroot ext
for n in parentpath fname fnameroot ext; do
echo "$n=${!n}"
done
done


Expected output - note the edge cases:

• a filename having no extension
• a filename starting with . (not considered the start of the extension)
• an input path ending in / (trailing / is ignored)
• an input path that is a filename only (. is returned as the parent path)
• a filename that has more than .-prefixed token (only the last is considered the extension):
----- /etc/bash.bashrc
parentpath=/etc
fname=bash.bashrc
fnameroot=bash
ext=.bashrc
----- /usr/bin/grep
parentpath=/usr/bin
fname=grep
fnameroot=grep
ext=
----- /Users/jdoe/.bash_profile
parentpath=/Users/jdoe
fname=.bash_profile
fnameroot=.bash_profile
ext=
----- /Library/Application Support/
parentpath=/Library
fname=Application Support
fnameroot=Application Support
ext=
parentpath=.
ext=.txt

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Note: The (arguably justified) downvote stems from an earlier version of this answer that contained a robust, but obscure and thus impractical one-liner. However, I believe the current, function-based answer that also explains the limitations of the accepted answer has value. –  mklement0 Dec 9 at 16:40

Simply use ${parameter%word} In your case: ${FILE%.*}


If you want to test it, all following work, and just remove the extension:

FILE = abc.xyz; echo ${FILE%.*}; FILE = 123.abc.xyz; echo${FILE%.*};
FILE = abc; echo ${FILE%.*};  - You can also use a for loop and tr to extract the filename from the path... for x in echo$path | tr "/" " "; do filename=$x; done  The tr replaces all / delimiters in path with spaces so making a list of strings, and the for loop scans through them leaving the last one in the filename variable. - If you're going to do it this way, save yourself some forks and instead use: (IFS=/ ; for x in$path; do filename=$x; done). The (...) subshell is needed to localize the assignment to IFS. – dubiousjim May 30 '12 at 21:44 In order to make dir more useful (in the case a local file with no path is specified as input) I did the following: # Substring from 0 thru pos of filename dir="${fullpath:0:${#fullpath} -${#filename}}"
if [[ -z "$dir" ]]; then dir="./" fi  This allows you to do something useful like add a suffix to the input file basename as: outfile=${dir}${base}_suffix.${ext}

testcase: foo.bar
dir: "./"
base: "foo"
ext: "bar"
outfile: "./foo_suffix.bar"

testcase: /home/me/foo.bar
dir: "/home/me/"
base: "foo"
ext: "bar"
outfile: "/home/me/foo_suffix.bar"

-

You can use

sed 's/^/./' | rev | cut -d. -f2- | rev | cut -c2-


to get file name and

sed 's/^/./' | rev | cut -d. -f1  | rev


to get extension.

Test case:

echo "filename.gz"     | sed 's/^/./' | rev | cut -d. -f2- | rev | cut -c2-
echo "filename.gz"     | sed 's/^/./' | rev | cut -d. -f1  | rev
echo "filename"        | sed 's/^/./' | rev | cut -d. -f2- | rev | cut -c2-
echo "filename"        | sed 's/^/./' | rev | cut -d. -f1  | rev
echo "filename.tar.gz" | sed 's/^/./' | rev | cut -d. -f2- | rev | cut -c2-
echo "filename.tar.gz" | sed 's/^/./' | rev | cut -d. -f1  | rev

-

Here is the algorithm I used for finding the name and extension of a file when I wrote a Bash script to make names unique when names conflicted with respect to casing.

#! /bin/bash

#
# Finds
# -- name and extension pairs
# -- null extension when there isn't an extension.
# -- Finds name of a hidden file without an extension
#

declare -a fileNames=(
'.Montreal'
'.Rome.txt'
'Loundon.txt'
'Paris'
'San Diego.txt'
'San Francisco'
)

echo "Script ${0} finding name and extension pairs." echo for theFileName in "${fileNames[@]}"
do
echo "theFileName=${theFileName}" # Get the proposed name by chopping off the extension name="${theFileName%.*}"

# get extension.  Set to null when there isn't an extension
# Thanks to mklement0 in a comment above.
extension=$([[ "$theFileName" == *.* ]] && echo ".${theFileName##*.}" || echo '') # a hidden file without extenson? if [ "${theFileName}" = "${extension}" ] ; then # hidden file without extension. Fixup. name=${theFileName}
extension=""
fi

echo "  name=${name}" echo " extension=${extension}"
done


The test run.

$config/Name\&Extension.bash Script config/Name&Extension.bash finding name and extension pairs. theFileName=.Montreal name=.Montreal extension= theFileName=.Rome.txt name=.Rome extension=.txt theFileName=Loundon.txt name=Loundon extension=.txt theFileName=Paris name=Paris extension= theFileName=San Diego.txt name=San Diego extension=.txt theFileName=San Francisco name=San Francisco extension=$


FYI: The complete transliteration program and more test cases can be found here: https://www.dropbox.com/s/4c6m0f2e28a1vxf/avoid-clashes-code.zip?dl=0

-

Using example file /Users/Jonathan/Scripts/bash/MyScript.sh, this code:

MY_EXT=".${0##*.}" ME=$(/usr/bin/basename "${0}" "${MY_EXT}")


will result in ${ME} being MyScript and ${MY_EXT} being .sh:

Script:

#!/bin/bash
set -e

MY_EXT=".${0##*.}" ME=$(/usr/bin/basename "${0}" "${MY_EXT}")

echo "${ME} -${MY_EXT}"


Some tests:

$./MyScript.sh MyScript - .sh$ bash MyScript.sh
MyScript - .sh

$/Users/Jonathan/Scripts/bash/MyScript.sh MyScript - .sh$ bash /Users/Jonathan/Scripts/bash/MyScript.sh
MyScript - .sh

-
Not sure why this has so many downvotes - it's actually more efficient than the accepted answer. (As the latter, it also breaks with input filenames without an extension). Using an explicit path to basename is, perhaps, overkill. –  mklement0 Dec 9 at 16:35

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