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Bash can do string operations. LOTS of string operations. This is an introduction to bash string operations for those new to Bash's special tool/feature called ''Parameter Expansion'' (PE), with a focus on typical string operations. (Note: much of this material is in [[BashFAQ/073|FAQ #73]]. It is being presented here with an approach intended to make it more approachable by people who have not already learned bash PEs.)

Note Bash's PE capability is a lot more powerful than the typical string manipulation calls you may be used to. There are some twists in the road up ahead. :)

Here is a list of some typical string manipulation functions/subroutines from other languages that you may already be familiar with:

|| '''strlen''' ||returns the length of the string||
|| '''leftstr''' ||returns a string N chars long starting from the left hand side||
|| '''rightstr''' ||returns a string N chars long starting from the right hand side||
|| '''midstr''' ||returns a string N chars long starting from an offset K chars from the beginning/end||
|| '''substr''' ||substitutes all instances of a pattern with a new string||
|| '''basename''' ||returns the last component of a pathname (everything after the last "/")||
|| '''dirname''' ||returns everything in the pathname up to, but not including the last "/"||

Two that you may not have heard of but would want to use all the time when scripting on *NIX:
|| '''getext''' ||returns a filename's extension (eg. "txt", "mp3", "doc", "sxc", "html", etc. ... )||
|| '''dropext''' ||returns the filename with the extension stripped off the end of the name.||

This article will cover how to do all of these using the Bash and will introduce the more powerful actions available with Bash's PEs. Please note there is a BashFAQ about PEs already. [[BashFAQ/073|FAQ #73]] covers a larger scope of PE capabilities, where this one focuses on string operations.

=== Filename manipulation ===

Lets say we have a bash variable named fullpath that contains `/usr/home/JosephBaldwin/Its_only_Rock_and_Roll.mp3`

Often in scripting we want to manipulate certain pieces of the path, like just the file name, which is the last component of the full path. So lets get just the filename from the full path: In *NIX we have the command `basename` which does this very nicely for us:
`basename "$fullpath"` returns "`Its_only_Rock_and_Roll.mp3`". In Bash we can do that much faster with this command: `echo ${fullpath##*/}`

"WHAT? What the heck is that? That's not a command! That's just a bunch of garbage someone made by whacking some of the stranger keys on the keyboard! I mean really! '' dollar curly pound pound star slash curly '' What IS that?"

Um, OK - uh, just calm down for a moment. I know it doesn't look like the typical programming language keyword or library call, but consider a language like Perl. See? To shoehorn new features into Bash, you have to find ways to do it without creating keywords (or anything else) that might cause older scripts to break, so all these string manipulation functions got placed inside the syntax from an old sh feature where there just happened to be room for them: "Parameter Expansion".

For a basename we use the PE expression: `${fullpath##*/}` which returns "`Its_only_Rock_and_Roll.mp3`".

To find the dirname we use the PE expression: `${fullpath%/*}` which produces "`/usr/home/JosephBaldwin`".

To drop the filename extension, we use the PE expression: `${fullpath%.*}` giving out "`/usr/home/JosephBaldwin/Its_only_Rock_and_Roll`"

To get the filename's extension we use the PE expression: `${fullpath##*.}` generating only "`mp3`".

To find the strlen, the PE expression: `${#fullpath}` finds it, and it's 49.

To get a leftstr, the PE expression: `${fullpath:0:20}` grabs the first 20 chars of fullpath to make "`usr/home/JosephBaldw`".

To perform a rightstr in bash we use the following PE expression: `${fullpath:(-20)}` which gets the last 20 chars, "`ly_Rock_and_Roll.mp3`". The parentheses are needed, although there are a couple other ways to write it that also work.

To perform a midstr in bash we use the following PE expression: `${fullpath:10:20}` making "`osephBaldwin/Its_onl`".

To perform a substr in bash we use the following PE expression: `${fullpath//Rock/Roll}` rolling it into "`usr/home/JosephBaldwin/Its_only_Roll_and_Roll.mp3`".

=== Why aren't the PE things named more nicely ===

=== Can't I just have these a regular functions with nice names? ===

Not totally generalizable.

=== What can I do with PE's that I couldn't do with the string functions above? ===

Todo: offset code examples in code boxes as done in the rest of the wiki.
Bash can do string operations. LOTS of string operations. This is an introduction to bash string manipulations and related techniques. It overlaps with the [[BashFAQ/073|Parameter Expansion]] question, but the information here is presented in a more beginner-friendly manner (we hope).

<<TableOfContents>>

=== Parameter expansion syntax ===
A ''parameter'' in bash is a term that covers both variables (storage places with names, that you can read and write by using their name) and ''special parameters'' (things you can only read from, not write to). For example, if we have a variable named `fruit` we can assign the value `apple` to it by writing:

{{{
fruit=apple
}}}
And we can read that value back by using a ''parameter expansion'':

{{{
$fruit
}}}
Note, however, that `$fruit` is an ''expression'' -- a noun, not a verb -- and so normally we need to put it in some sort of command. Also, the results of an unquoted parameter expansion will be [[WordSplitting|split into multiple words]] and [[glob|expanded into filenames]], which we generally don't want. So, we should always [[Quotes|quote]] our parameter expansions unless we're dealing with a special case.

So, to see the value of a parameter (such as a variable):

{{{
echo "$fruit"

# more generally, printf "%s\n" "$fruit"
# but we'll keep it simple for now
}}}
Or, we can use these expansions as part of a larger expression:

{{{
echo "I like to eat $fruit"
}}}
If we want to put an `s` on the end of our variable's content, we run into a dilemma:

{{{
echo "I like to eat $fruits"
}}}
This command tries to expand a variable named `fruits`, rather than a variable named `fruit`. We need to tell the shell that we have a variable name followed by a bunch of other letters that are ''not'' part of the variable name. We can do that like this:

{{{
echo "I like to eat ${fruit}s"
}}}
And while we're inside the curly braces, we also have the opportunity to manipulate the variable's content in various exciting and occasionally even useful ways, which we're about to describe.

It should be pointed out that these tricks only work on ''parameter expansions''. You can't operate on a constant string (or a command substitution, etc.) using them, because the syntax requires a parameter name inside the curly braces. (You can, of course, stick your constant string or command substitution into a temporary variable and then use that.)

=== Length of a string ===
This one's easy, so we'll get it out of the way first.

{{{
echo "The string <$var> is ${#var} characters long."
}}}
=== Checking for substrings ===
This overlaps [[BashFAQ/041|FAQ #41]] but we'll repeat it here. To check for a (known, static) substring and act upon its presence or absence, just do this:

{{{
if [[ $var = *substring* ]]; then
  echo "<$var> contains <substring>"
else
  echo "<$var> does not contain <substring>"
fi
}}}
If the substring you want to look for is in a variable, and you want to prevent it from being treated as a glob, you can quote that part:

{{{
if [[ $var = *"$substring"* ]]; then
# substring will be treated as a literal string, even if it contains glob chars
}}}
If you want it to be treated as a [[glob]] pattern, remove the quotes:

{{{
if [[ $var = *$substring* ]]; then
# substring will be treated as a glob
}}}
There is also a RegularExpression capability, involving the `=~` operator. For compatibility with all versions of Bash from 3.0 up, be sure to put the regular expression into a variable -- don't put it directly into the `[[` command. And don't quote it, either -- or else it will be treated as a literal string.

{{{
my_re='^fo+.*bar'
if [[ $var =~ $my_re ]]; then
# my_re will be treated as an Extended Regular Expression (ERE)
}}}
=== Substituting part of a string ===
A common need is to replace some part of a string with something else. (Let's call the old and new parts "words" for now.) If we know what the old word is, and what the new word should be, but not necessarily ''where'' in the string it appears, then we can do this:

{{{
$ var="She favors the bold. That's cold."
$ echo "${var/old/new}"
She favors the bnew. That's cold.
}}}
That replaces just the first occurrence of the word `old`. If we want to replace ''all'' occurrence of the word, we double up the first slash:

{{{
$ var="She favors the bold. That's cold."
$ echo "${var//old/new}"
She favors the bnew. That's cnew.
}}}
We may not know the ''exact'' word we want to replace. If we can express the kind of word we're looking for with a [[glob]] pattern, then we're still in good shape:

{{{
$ var="She favors the bold. That's cold."
$ echo "${var//b??d/mold}"
She favors the mold. That's cold.
}}}
We can also ''anchor'' the word we're looking for to either the start or end of the string. In other words, we can tell bash that it should only perform the substitution if it finds the word at the start, or at the end, of the string, rather than somewhere in the middle.

{{{
$ var="She favors the bold. That's cold."
$ echo "${var/#bold/mold}"
She favors the bold. That's cold.
$ echo "${var/#She/He}"
He favors the bold. That's cold.
$ echo "${var/%cold/awful}"
She favors the bold. That's cold.
$ echo "${var/%cold?/awful}"
She favors the bold. That's awful
}}}
Note that nothing happened in the first command, because `bold` did not appear at the beginning of the string; and also in the third command, because `cold` did not appear at the end of the string. The `#` anchors the pattern (plain word or glob) to the beginning, and the `%` anchors it to the end. In the fourth command, the pattern `cold?` matches the word `cold.` (including the period) at the end of the string.

=== Removing part of a string ===
We can use the `${var/old/}` or `${var//old/}` syntax to replace a word with ''nothing'' if we want. That's one way to remove part of a string. But there are some other ways that come in handy more often than you might guess.

The first involves removing something from the ''beginning'' of a string. Again, the part we're going to remove might be a constant string that we know in advance, or it might be something we have to describe with a glob pattern.

{{{
$ var="/usr/local/bin/tcpserver"
$ echo "${var##*/}"
tcpserver
}}}
The `##` means "remove the largest possible matching string from the beginning of the variable's contents". The `*/` is the pattern that we want to match -- any number of characters ending with a (literal) forward slash. The result is essentially the same as the `basename` command, with one notable exception: If the string ends with a slash (or several), `basename` would return the name of the last path element, while the above would return an empty string. ''Use with caution.''

If we only use one `#` then we remove the ''shortest'' possible matching string. This is less commonly needed, so we'll skip the example for now and give a really cool one later.

As you might have guessed, we can also remove a string from the ''end'' of our variable's contents. For example, to mimic the `dirname` command, we remove everything starting at the ''last'' slash:

{{{
$ var="/usr/local/bin/tcpserver"
$ echo "${var%/*}"
/usr/local/bin
}}}
The `%` means "remove the shortest possible match from the end of the variable's contents", and `/*` is a glob that begins with a literal slash character, followed by any number of characters. Since we require the ''shortest'' match, bash isn't allowed to match `/bin/tcpserver` or anything else that contains multiple slashes. It has to remove `/tcpserver` only.

Likewise, `%%` means "remove the longest possible match from the end of the variable's contents".

Now let's try something harder: what if we wanted a sort of ''double basename'' -- the last ''two'' parts of a pathname, instead of just the last part?

{{{
$ var=/home/someuser/projects/q/quark
$ tmp=${var%/*/*}
$ echo "${var#$tmp/}"
q/quark
}}}
This is a bit trickier. Here's how it works:

 * Look for the shortest possible string matching `/*/*` at the ''end'' of the pathname. In this case, it would match `/q/quark`.
 * Remove that from the ''end'' of the original string. The result of this is the thing we ''don't'' want. We store this in `tmp`.
 * Remove the thing we don't want (plus an extra `/`) from the original variable.
 * We're left with the last two parts of the pathname.

It's also worth pointing out that, as we just demonstrated, the pattern to be removed (after `#` or `%` or `##` or `%%`) doesn't have to be a constant -- it can be another substitution. This isn't the most common case in real life, but it's sometimes handy.

=== Extracting parts of strings ===
We can combine the `#` and `%` operations to produce some interesting results, too. For example, we might know that our variable contains something in square brackets, somewhere, with an unknown amount of "garbage" on both sides. We can use this to extract the part we want:

{{{
$ var='garbage in [42] garbage out'
$ tmp=${var##*[}
$ echo "${tmp%%]*}"
42
}}}
Note that we used a temporary variable to hold the results of one parameter expansion, and then fed that result to the second one. We can't do two parameter expansions to the same variable at once (the syntax simply doesn't permit it).

If the delimiter is the same both times (for instance, double quotes) then we need to be a bit more careful:

{{{
$ var='garbage in "42" garbage out'
$ tmp=${var#*\"}
$ echo "${tmp%\"*}"
42
}}}
Sometimes, however, we don't have useful delimiters. If we know that the good part resides in a certain set of ''columns'', we can extract it that way. We can use range notation to extract a substring by specifying starting position and length:

{{{
var='CONFIG .SYS'
left=${var:0:8}
right=${var:(-3)}
}}}
Here, the input is an MS-DOS "8.3" filename, space-padded to its full length. If for some reason we need to separate into its two parts, we have several possible ways to go about it. We could split the name into ''fields'' at the dot (we'll show that approach later). Or we could use `${var#*.}` to get the "extension" (the part after the dot) and `${var%.*}` to get the left-hand part. Or we could count the columns, as we showed here.

In the `${var:0:8}` example, the `0` is the starting position (0 is the first column) and `8` is the length of the piece we want. If we omit the length, or if the length is greater than the rest of the string, then we get the rest of the string as output. In the `${var:(-3)}` example, we omitted the length. We specified a starting position of `-3` (negative three), which means ''three from the end''. We have to use parentheses or a space between the `:` and the negative number to avoid a syntactic inconvenience (we'll discuss that later). We could also have used `${var:8}` to get the rest of the string starting at column number 8 (which is the ''ninth'' columns) in this case, since we know the length is constant; but in many cases, we might not know the length in advance, and specifying a negative starting position lets us avoid some unnecessary work.

Column-counting is an even stronger technique when there is no delimiter ''at all'' between the pieces we want:

{{{
var='CONFIG SYS'
left=${var:0:8}
right=${var:8}
}}}
We can't use `${var#*.}` or similar techniques here!

=== Splitting a string into fields ===
Sometimes your input might naturally consist of various ''fields'' with some sort of delimiter between them. In these cases, a natural approach to handling the input is to divide it into its component fields, so that each one can be handled on its own.

If the delimiter is a single character (or one character of a set -- so long as it's never ''more than one'') then bash offers several viable approaches. The first is to read the input directly into an [[BashFAQ/005|array]]:

{{{
var=192.168.1.3
IFS=. read -r -a octets <<< "$var"
}}}
We're no longer in the realm of ''parameter expansion'' here at all. We've combined several features at once:

 * The [[IFS]] variable tells the `read` command what field delimiters to use. In this case, we only want to use the dot. If we had specified more than one character, then it would have meant ''any one'' of those characters would qualify as a delimiter.
 * The notation `var=value command` means we set the variable only for the duration of this single command. The `IFS` variable goes back to whatever it was before, once `read` is finished.
 * `read` puts its results into an array named `octets`.
 * `<<< "$var"` means we use the contents of `var` as ''standard input'' to the `read` command.

After this command, the result is an array named `octets` whose first element (element 0) is `192`, and whose second element (element 1) is `168`, and so on. If we want a fixed set of variables instead of an array, we can do that as well:

{{{
IFS=, read lastname firstname <<< "$name"
}}}
We can also "skip" fields we don't want by assigning them to a variable we don't care about such as `x` or `junk`; or to `_` which is overwritten by each command:

{{{
while IFS=: read user _ uid gid _ home shell; do
 ...
done < /etc/passwd
}}}
Another approach to the same sort of problem involves the intentional use of WordSplitting to retrieve fields one at a time. This is not any more powerful than the array approach we just saw, but it does have two advantages:

 * It works in `sh` as well as bash.
 * It's a bit simpler.

{{{
var=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin
found=no
set -f
IFS=:
for dir in $var
do
  if test -x "$dir"/foo; then found=yes; fi
done
set +f; unset IFS
}}}
This example is similar to one on [[BashFAQ/081|FAQ 81]]. Bash offers better ways to determine whether a command exists in your `PATH`, but this illustrates the concept quite clearly. Points of note:

 * `set -f` disables [[glob]] expansion. You should always disable globs when using unquoted parameter expansion, ''unless'' you specifically want to allow globs in the parameter's contents.
 * We use `set +f` and `unset IFS` at the end of the code to return the shell to a ''default'' state. However, this is not necessarily the state the shell was in when the code started. Returning the shell to its previous (possible non-default) state is more trouble than it's worth in most cases, so we won't discuss it in depth here.
 * Again, [[IFS]] contains a list of field delimiters. We want to split our parameter at each colon.

If your field delimiter is a multi-character string, then unfortunately bash does not offer any simple ways to deal with that. Your best bet is to handle the task in awk instead.

{{{
$ cat inputfile
apple::0.75::21
banana::0.50::43
cherry::0.15::107
date::0.30::20
$ awk -F '::' '{print $1 " qty " $3 " @" $2 " = " $2*$3; total+=$2*$3} END {print "Total: " total}' inputfile
apple qty 21 @0.75 = 15.75
banana qty 43 @0.50 = 21.5
cherry qty 107 @0.15 = 16.05
date qty 20 @0.30 = 6
Total: 59.3
}}}
awk's `-F` allows us to specify a field delimiter of any length. awk also allows [[BashFAQ/022|floating point arithmetic]], associative arrays, and a wide variety of other features that many shells lack.

=== Joining fields together ===
The simplest way to concatenate values is to use them together, with nothing in between:

{{{
echo "$foo$bar"
}}}
If we have an array instead of a fixed set of variables, then we can print the array with a single character (or nothing) between fields using [[IFS]]:

{{{
$ array=(1 2 3)
$ (IFS=/; echo "${array[*]}")
1/2/3
}}}
Notable points here:

 * We can't use `IFS=/ echo ...` because of [[BashFAQ/104|how the parser works]].
 * Therefore, we have to set `IFS` first, in a separate command. This would make the assignment persist for the rest of the shell. Since we don't want that, and because we aren't assigning to any variables that we need to keep, we use an explicit SubShell (using parentheses) to set up an environment where the change to `IFS` is not persistent.
 * If `IFS` is not set, we get a space between elements. If it's set to the empty string, there is nothing between elements.
 * The delimiter is not printed after the final element.
 * If we wanted more than one character between fields, we would have to use a different approach.

A more general approach to "joining" an array involves iterating through the fields, either explicitly (using a `for` loop) or implicitly (using `printf`). We'll start with the `for` loop:

{{{
array=(1 2 3)
first=1
for element in "${array[@]}"; do
  if ((! first)); then printf "::"; fi
  printf "%s" "$element"
  first=0
done
echo
}}}
And using `printf`:

{{{#!highlight text numbers=disable
#!/bin/sh
printf "$# args:"
printf " <%s>" "$@"
echo
}}}
This script dumps the positional parameters, which act like an array. A named array can be used in place of `@` (e.g. `"${array[@]}"` expands to all the elements of `array`).

If we wanted to join the strings into another variable, instead of dumping them out, then we have a few choices:

 * A string can be built up a piece at a time using `var="$var$newthing"` (portable) or `var+=$newthing` (bash 3.1).
 * If the joining can be done with a single `printf` command, it can be assigned to a variable using `printf -v var FORMAT FIELDS...` (bash 3.1).
 * If the joining requires multiple commands, and a piecemeal string build-up isn't desirable, CommandSubstitution can be used to assign a function's output: `var=$(myjoinfunction)`. It can also be used with a chunk of commands:

 {{{
var=$(
  command
  command
)
}}}

 . The disadvantage of command substitution is that it discards all trailing newlines. See the CommandSubstitution page for a workaround.

=== Default or alternate values ===
The oldest parameter expansion features of all (''every'' Bourne-family shell has the basic form of these) involve the use or assignment of ''default values'' when a parameter is not set. These are fairly straightforward:

{{{
"${EDITOR-vi}" "$filename"
}}}
If the `EDITOR` variable isn't set, use `vi` instead. There's a variant of this:

{{{
"${EDITOR:-vi}" "$filename"
}}}
This one uses `vi` if the `EDITOR` variable is unset ''or empty''. Previously, we mentioned a syntactic infelicity that required parentheses or whitespace to work around:

{{{
var='a bunch of junk089'
value=${var:(-3)}
}}}
If we were to use `${var:-3}` here, it would be interpreted as ''use 3 as the default if var is not set'' because the latter syntax has been in use longer than bash has existed. Hence the need for a workaround.

We can also ''assign'' a default value to a variable if it's not already set:

{{{
: ${PATH=/usr/bin:/bin}
: ${PATH:=/usr/bin:/bin}
}}}
In the first one, if `PATH` is set, nothing happens. If it's not set, then it is assigned the value `/usr/bin:/bin`. In the second one, the assignment also happens if `PATH` is set to an empty value. Since `${...}` is an ''expression'' and not a command, it has to be used in a command. Traditionally, the `:` command (which does nothing, and is a builtin command even in the most ancient shells) is used for this purpose.

Finally, we have this expression:

{{{
${var+foo}
}}}
This one means ''use foo is the variable is set; otherwise, use nothing''. It's an extremely primitive conditional check, and it has two main uses:

 * The expression `${1+"$@"}` is used to work around broken behavior of `"$@"` in old or buggy shells when writing a WrapperScript.
 * A test such as `if test "${var+defined}"` can be used to determine [[BashFAQ/083|whether a variable is set]].

It's almost never used outside of these two contexts.

=== See Also ===
[[BashFAQ/073|Parameter expansion]] (terse version, with handy tables).

How do I do string manipulations in bash?

Bash can do string operations. LOTS of string operations. This is an introduction to bash string manipulations and related techniques. It overlaps with the Parameter Expansion question, but the information here is presented in a more beginner-friendly manner (we hope).

Parameter expansion syntax

A parameter in bash is a term that covers both variables (storage places with names, that you can read and write by using their name) and special parameters (things you can only read from, not write to). For example, if we have a variable named fruit we can assign the value apple to it by writing:

fruit=apple

And we can read that value back by using a parameter expansion:

$fruit

Note, however, that $fruit is an expression -- a noun, not a verb -- and so normally we need to put it in some sort of command. Also, the results of an unquoted parameter expansion will be split into multiple words and expanded into filenames, which we generally don't want. So, we should always quote our parameter expansions unless we're dealing with a special case.

So, to see the value of a parameter (such as a variable):

echo "$fruit"

# more generally, printf "%s\n" "$fruit"
# but we'll keep it simple for now

Or, we can use these expansions as part of a larger expression:

echo "I like to eat $fruit"

If we want to put an s on the end of our variable's content, we run into a dilemma:

echo "I like to eat $fruits"

This command tries to expand a variable named fruits, rather than a variable named fruit. We need to tell the shell that we have a variable name followed by a bunch of other letters that are not part of the variable name. We can do that like this:

echo "I like to eat ${fruit}s"

And while we're inside the curly braces, we also have the opportunity to manipulate the variable's content in various exciting and occasionally even useful ways, which we're about to describe.

It should be pointed out that these tricks only work on parameter expansions. You can't operate on a constant string (or a command substitution, etc.) using them, because the syntax requires a parameter name inside the curly braces. (You can, of course, stick your constant string or command substitution into a temporary variable and then use that.)

Length of a string

This one's easy, so we'll get it out of the way first.

echo "The string <$var> is ${#var} characters long."

Checking for substrings

This overlaps FAQ #41 but we'll repeat it here. To check for a (known, static) substring and act upon its presence or absence, just do this:

if [[ $var = *substring* ]]; then
  echo "<$var> contains <substring>"
else
  echo "<$var> does not contain <substring>"
fi

If the substring you want to look for is in a variable, and you want to prevent it from being treated as a glob, you can quote that part:

if [[ $var = *"$substring"* ]]; then
# substring will be treated as a literal string, even if it contains glob chars

If you want it to be treated as a glob pattern, remove the quotes:

if [[ $var = *$substring* ]]; then
# substring will be treated as a glob

There is also a RegularExpression capability, involving the =~ operator. For compatibility with all versions of Bash from 3.0 up, be sure to put the regular expression into a variable -- don't put it directly into the [[ command. And don't quote it, either -- or else it will be treated as a literal string.

my_re='^fo+.*bar'
if [[ $var =~ $my_re ]]; then
# my_re will be treated as an Extended Regular Expression (ERE)

Substituting part of a string

A common need is to replace some part of a string with something else. (Let's call the old and new parts "words" for now.) If we know what the old word is, and what the new word should be, but not necessarily where in the string it appears, then we can do this:

$ var="She favors the bold.  That's cold."
$ echo "${var/old/new}"
She favors the bnew.  That's cold.

That replaces just the first occurrence of the word old. If we want to replace all occurrence of the word, we double up the first slash:

$ var="She favors the bold.  That's cold."
$ echo "${var//old/new}"
She favors the bnew.  That's cnew.

We may not know the exact word we want to replace. If we can express the kind of word we're looking for with a glob pattern, then we're still in good shape:

$ var="She favors the bold.  That's cold."
$ echo "${var//b??d/mold}"
She favors the mold.  That's cold.

We can also anchor the word we're looking for to either the start or end of the string. In other words, we can tell bash that it should only perform the substitution if it finds the word at the start, or at the end, of the string, rather than somewhere in the middle.

$ var="She favors the bold.  That's cold."
$ echo "${var/#bold/mold}"
She favors the bold.  That's cold.
$ echo "${var/#She/He}"
He favors the bold.  That's cold.
$ echo "${var/%cold/awful}"
She favors the bold.  That's cold.
$ echo "${var/%cold?/awful}"
She favors the bold.  That's awful

Note that nothing happened in the first command, because bold did not appear at the beginning of the string; and also in the third command, because cold did not appear at the end of the string. The # anchors the pattern (plain word or glob) to the beginning, and the % anchors it to the end. In the fourth command, the pattern cold? matches the word cold. (including the period) at the end of the string.

Removing part of a string

We can use the ${var/old/} or ${var//old/} syntax to replace a word with nothing if we want. That's one way to remove part of a string. But there are some other ways that come in handy more often than you might guess.

The first involves removing something from the beginning of a string. Again, the part we're going to remove might be a constant string that we know in advance, or it might be something we have to describe with a glob pattern.

$ var="/usr/local/bin/tcpserver"
$ echo "${var##*/}"
tcpserver

The ## means "remove the largest possible matching string from the beginning of the variable's contents". The */ is the pattern that we want to match -- any number of characters ending with a (literal) forward slash. The result is essentially the same as the basename command, with one notable exception: If the string ends with a slash (or several), basename would return the name of the last path element, while the above would return an empty string. Use with caution.

If we only use one # then we remove the shortest possible matching string. This is less commonly needed, so we'll skip the example for now and give a really cool one later.

As you might have guessed, we can also remove a string from the end of our variable's contents. For example, to mimic the dirname command, we remove everything starting at the last slash:

$ var="/usr/local/bin/tcpserver"
$ echo "${var%/*}"
/usr/local/bin

The % means "remove the shortest possible match from the end of the variable's contents", and /* is a glob that begins with a literal slash character, followed by any number of characters. Since we require the shortest match, bash isn't allowed to match /bin/tcpserver or anything else that contains multiple slashes. It has to remove /tcpserver only.

Likewise, %% means "remove the longest possible match from the end of the variable's contents".

Now let's try something harder: what if we wanted a sort of double basename -- the last two parts of a pathname, instead of just the last part?

$ var=/home/someuser/projects/q/quark
$ tmp=${var%/*/*}
$ echo "${var#$tmp/}"
q/quark

This is a bit trickier. Here's how it works:

  • Look for the shortest possible string matching /*/* at the end of the pathname. In this case, it would match /q/quark.

  • Remove that from the end of the original string. The result of this is the thing we don't want. We store this in tmp.

  • Remove the thing we don't want (plus an extra /) from the original variable.

  • We're left with the last two parts of the pathname.

It's also worth pointing out that, as we just demonstrated, the pattern to be removed (after # or % or ## or %%) doesn't have to be a constant -- it can be another substitution. This isn't the most common case in real life, but it's sometimes handy.

Extracting parts of strings

We can combine the # and % operations to produce some interesting results, too. For example, we might know that our variable contains something in square brackets, somewhere, with an unknown amount of "garbage" on both sides. We can use this to extract the part we want:

$ var='garbage in [42] garbage out'
$ tmp=${var##*[}
$ echo "${tmp%%]*}"
42

Note that we used a temporary variable to hold the results of one parameter expansion, and then fed that result to the second one. We can't do two parameter expansions to the same variable at once (the syntax simply doesn't permit it).

If the delimiter is the same both times (for instance, double quotes) then we need to be a bit more careful:

$ var='garbage in "42" garbage out'
$ tmp=${var#*\"}
$ echo "${tmp%\"*}"
42

Sometimes, however, we don't have useful delimiters. If we know that the good part resides in a certain set of columns, we can extract it that way. We can use range notation to extract a substring by specifying starting position and length:

var='CONFIG  .SYS'
left=${var:0:8}
right=${var:(-3)}

Here, the input is an MS-DOS "8.3" filename, space-padded to its full length. If for some reason we need to separate into its two parts, we have several possible ways to go about it. We could split the name into fields at the dot (we'll show that approach later). Or we could use ${var#*.} to get the "extension" (the part after the dot) and ${var%.*} to get the left-hand part. Or we could count the columns, as we showed here.

In the ${var:0:8} example, the 0 is the starting position (0 is the first column) and 8 is the length of the piece we want. If we omit the length, or if the length is greater than the rest of the string, then we get the rest of the string as output. In the ${var:(-3)} example, we omitted the length. We specified a starting position of -3 (negative three), which means three from the end. We have to use parentheses or a space between the : and the negative number to avoid a syntactic inconvenience (we'll discuss that later). We could also have used ${var:8} to get the rest of the string starting at column number 8 (which is the ninth columns) in this case, since we know the length is constant; but in many cases, we might not know the length in advance, and specifying a negative starting position lets us avoid some unnecessary work.

Column-counting is an even stronger technique when there is no delimiter at all between the pieces we want:

var='CONFIG  SYS'
left=${var:0:8}
right=${var:8}

We can't use ${var#*.} or similar techniques here!

Splitting a string into fields

Sometimes your input might naturally consist of various fields with some sort of delimiter between them. In these cases, a natural approach to handling the input is to divide it into its component fields, so that each one can be handled on its own.

If the delimiter is a single character (or one character of a set -- so long as it's never more than one) then bash offers several viable approaches. The first is to read the input directly into an array:

var=192.168.1.3
IFS=. read -r -a octets <<< "$var"

We're no longer in the realm of parameter expansion here at all. We've combined several features at once:

  • The IFS variable tells the read command what field delimiters to use. In this case, we only want to use the dot. If we had specified more than one character, then it would have meant any one of those characters would qualify as a delimiter.

  • The notation var=value command means we set the variable only for the duration of this single command. The IFS variable goes back to whatever it was before, once read is finished.

  • read puts its results into an array named octets.

  • <<< "$var" means we use the contents of var as standard input to the read command.

After this command, the result is an array named octets whose first element (element 0) is 192, and whose second element (element 1) is 168, and so on. If we want a fixed set of variables instead of an array, we can do that as well:

IFS=, read lastname firstname <<< "$name"

We can also "skip" fields we don't want by assigning them to a variable we don't care about such as x or junk; or to _ which is overwritten by each command:

while IFS=: read user _ uid gid _ home shell; do
 ...
done < /etc/passwd

Another approach to the same sort of problem involves the intentional use of WordSplitting to retrieve fields one at a time. This is not any more powerful than the array approach we just saw, but it does have two advantages:

  • It works in sh as well as bash.

  • It's a bit simpler.

var=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin
found=no
set -f
IFS=:
for dir in $var
do
  if test -x "$dir"/foo; then found=yes; fi
done
set +f; unset IFS

This example is similar to one on FAQ 81. Bash offers better ways to determine whether a command exists in your PATH, but this illustrates the concept quite clearly. Points of note:

  • set -f disables glob expansion. You should always disable globs when using unquoted parameter expansion, unless you specifically want to allow globs in the parameter's contents.

  • We use set +f and unset IFS at the end of the code to return the shell to a default state. However, this is not necessarily the state the shell was in when the code started. Returning the shell to its previous (possible non-default) state is more trouble than it's worth in most cases, so we won't discuss it in depth here.

  • Again, IFS contains a list of field delimiters. We want to split our parameter at each colon.

If your field delimiter is a multi-character string, then unfortunately bash does not offer any simple ways to deal with that. Your best bet is to handle the task in awk instead.

$ cat inputfile
apple::0.75::21
banana::0.50::43
cherry::0.15::107
date::0.30::20
$ awk -F '::' '{print $1 " qty " $3 " @" $2 " = " $2*$3; total+=$2*$3} END {print "Total: " total}' inputfile
apple qty 21 @0.75 = 15.75
banana qty 43 @0.50 = 21.5
cherry qty 107 @0.15 = 16.05
date qty 20 @0.30 = 6
Total: 59.3

awk's -F allows us to specify a field delimiter of any length. awk also allows floating point arithmetic, associative arrays, and a wide variety of other features that many shells lack.

Joining fields together

The simplest way to concatenate values is to use them together, with nothing in between:

echo "$foo$bar"

If we have an array instead of a fixed set of variables, then we can print the array with a single character (or nothing) between fields using IFS:

$ array=(1 2 3)
$ (IFS=/; echo "${array[*]}")
1/2/3

Notable points here:

  • We can't use IFS=/ echo ... because of how the parser works.

  • Therefore, we have to set IFS first, in a separate command. This would make the assignment persist for the rest of the shell. Since we don't want that, and because we aren't assigning to any variables that we need to keep, we use an explicit SubShell (using parentheses) to set up an environment where the change to IFS is not persistent.

  • If IFS is not set, we get a space between elements. If it's set to the empty string, there is nothing between elements.

  • The delimiter is not printed after the final element.
  • If we wanted more than one character between fields, we would have to use a different approach.

A more general approach to "joining" an array involves iterating through the fields, either explicitly (using a for loop) or implicitly (using printf). We'll start with the for loop:

array=(1 2 3)
first=1
for element in "${array[@]}"; do
  if ((! first)); then printf "::"; fi
  printf "%s" "$element"
  first=0
done
echo

And using printf:

#!/bin/sh
printf "$# args:"
printf " <%s>" "$@"
echo

This script dumps the positional parameters, which act like an array. A named array can be used in place of @ (e.g. "${array[@]}" expands to all the elements of array).

If we wanted to join the strings into another variable, instead of dumping them out, then we have a few choices:

  • A string can be built up a piece at a time using var="$var$newthing" (portable) or var+=$newthing (bash 3.1).

  • If the joining can be done with a single printf command, it can be assigned to a variable using printf -v var FORMAT FIELDS... (bash 3.1).

  • If the joining requires multiple commands, and a piecemeal string build-up isn't desirable, CommandSubstitution can be used to assign a function's output: var=$(myjoinfunction). It can also be used with a chunk of commands:

    var=$(
      command
      command
    )
  • The disadvantage of command substitution is that it discards all trailing newlines. See the CommandSubstitution page for a workaround.

Default or alternate values

The oldest parameter expansion features of all (every Bourne-family shell has the basic form of these) involve the use or assignment of default values when a parameter is not set. These are fairly straightforward:

"${EDITOR-vi}" "$filename"

If the EDITOR variable isn't set, use vi instead. There's a variant of this:

"${EDITOR:-vi}" "$filename"

This one uses vi if the EDITOR variable is unset or empty. Previously, we mentioned a syntactic infelicity that required parentheses or whitespace to work around:

var='a bunch of junk089'
value=${var:(-3)}

If we were to use ${var:-3} here, it would be interpreted as use 3 as the default if var is not set because the latter syntax has been in use longer than bash has existed. Hence the need for a workaround.

We can also assign a default value to a variable if it's not already set:

: ${PATH=/usr/bin:/bin}
: ${PATH:=/usr/bin:/bin}

In the first one, if PATH is set, nothing happens. If it's not set, then it is assigned the value /usr/bin:/bin. In the second one, the assignment also happens if PATH is set to an empty value. Since ${...} is an expression and not a command, it has to be used in a command. Traditionally, the : command (which does nothing, and is a builtin command even in the most ancient shells) is used for this purpose.

Finally, we have this expression:

${var+foo}

This one means use foo is the variable is set; otherwise, use nothing. It's an extremely primitive conditional check, and it has two main uses:

  • The expression ${1+"$@"} is used to work around broken behavior of "$@" in old or buggy shells when writing a WrapperScript.

  • A test such as if test "${var+defined}" can be used to determine whether a variable is set.

It's almost never used outside of these two contexts.

See Also

Parameter expansion (terse version, with handy tables).


CategoryShell

BashFAQ/100 (last edited 2023-06-26 10:03:19 by StephaneChazelas)