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Expansion

Each time you type a command line and press the enter key, bash performs several processes upon the text before it carries out your command. We have seen a couple of cases of how a simple character sequence, for example “*”, can have a lot of meaning to the shell. The process that makes this happen is called expansion. With expansion, you type something and it is expanded into something else before the shell acts upon it. To demonstrate what we mean by this, let's take a look at the echo command. echo is a shell builtin that performs a very simple task. It prints out its text arguments on standard output:

[me@linuxbox me]$ echo this is a test
this is a test

That's pretty straightforward. Any argument passed to echo gets displayed. Let's try another example:

[me@linuxbox me]$ echo *
Desktop Documents ls-output.txt Music Pictures Public Templates Videos

So what just happened? Why didn't echo print “*”? As you recall from our work with wildcards, the “*” character means match any characters in a filename, but what we didn't see in our original discussion was how the shell does that. The simple answer is that the shell expands the “*” into something else (in this instance, the names of the files in the current working directory) before the echo command is executed. When the enter key is pressed, the shell automatically expands any qualifying characters on the command line before the command is carried out, so the echo command never saw the “*”, only its expanded result. Knowing this, we can see that echo behaved as expected.

Pathname Expansion

The mechanism by which wildcards work is called pathname expansion. If we try some of the techniques that we employed in our earlier lessons, we will see that they are really expansions. Given a home directory that looks like this:

[me@linuxbox me]$ ls

Desktop
ls-output.txt
Documents Music
Pictures
Public
Templates
Videos

we could carry out the following expansions:

[me@linuxbox me]$ echo D*
Desktop Documents

and:

[me@linuxbox me]$ echo *s
Documents Pictures Templates Videos

or even:

[me@linuxbox me]$ echo [[:upper:]]*
Desktop Documents Music Pictures Public Templates Videos

and looking beyond our home directory:

[me@linuxbox me]$ echo /usr/*/share
/usr/kerberos/share /usr/local/share

Tilde Expansion

As you may recall from our introduction to the cd command, the tilde character (“~”) has a special meaning. When used at the beginning of a word, it expands into the name of the home directory of the named user, or if no user is named, the home directory of the current user:

[me@linuxbox me]$ echo ~
/home/me

If user “foo” has an account, then:

[me@linuxbox me]$ echo ~foo
/home/foo

Arithmetic Expansion

The shell allows arithmetic to be performed by expansion. This allow us to use the shell prompt as a calculator:

[me@linuxbox me]$ echo $((2 + 2))
4

Arithmetic expansion uses the form:

	$((expression))

where expression is an arithmetic expression consisting of values and arithmetic operators.

Arithmetic expansion only supports integers (whole numbers, no decimals), but can perform quite a number of different operations.

Spaces are not significant in arithmetic expressions and expressions may be nested. For example, to multiply five squared by three:

[me@linuxbox me]$ echo $(($((5**2)) * 3))
75

Single parentheses may be used to group multiple subexpressions. With this technique, we can rewrite the example above and get the same result using a single expansion instead of two:

[me@linuxbox me]$ echo $(((5**2) * 3))
75

Here is an example using the division and remainder operators. Notice the effect of integer division:

[me@linuxbox me]$ echo Five divided by two equals $((5/2))
Five divided by two equals 2
[me@linuxbox me]$ echo with $((5%2)) left over.
with 1 left over.

Brace Expansion

Perhaps the strangest expansion is called brace expansion. With it, you can create multiple text strings from a pattern containing braces. Here's an example:

[me@linuxbox me]$ echo Front-{A,B,C}-Back
Front-A-Back Front-B-Back Front-C-Back

Patterns to be brace expanded may contain a leading portion called a preamble and a trailing portion called a postscript. The brace expression itself may contain either a comma-separated list of strings, or a range of integers or single characters. The pattern may not contain embedded whitespace. Here is an example using a range of integers:

[me@linuxbox me]$ echo Number_{1..5}
Number_1 Number_2 Number_3 Number_4 Number_5

A range of letters in reverse order:

[me@linuxbox me]$ echo {Z..A}
Z Y X W V U T S R Q P O N M L K J I H G F E D C B A

Brace expansions may be nested:

[me@linuxbox me]$ echo a{A{1,2},B{3,4}}b
aA1b aA2b aB3b aB4b

So what is this good for? The most common application is to make lists of files or directories to be created. For example, if you were a photographer and had a large collection of images you wanted to organize into years and months, the first thing you might do is create a series of directories named in numeric “Year-Month” format. This way, the directory names will sort in chronological order. You could type out a complete list of directories, but that's a lot of work and it's error-prone too. Instead, you could do this:

[me@linuxbox me]$ mkdir Photos
[me@linuxbox me]$ cd Photos
[me@linuxbox Photos]$ mkdir {2007..2009}-0{1..9} {2007..2009}-{10..12}
[me@linuxbox Photos]$ ls

2007-01 2007-07 2008-01 2008-07 2009-01 2009-07
2007-02 2007-08 2008-02 2008-08 2009-02 2009-08
2007-03 2007-09 2008-03 2008-09 2009-03 2009-09
2007-04 2007-10 2008-04 2008-10 2009-04 2009-10
2007-05 2007-11 2008-05 2008-11 2009-05 2009-11
2007-06 2007-12 2008-06 2008-12 2009-06 2009-12

Pretty slick!

Parameter Expansion

We're only going to touch briefly on parameter expansion in this lesson, but we'll be covering it more later. It's a feature that is more useful in shell scripts than directly on the command line. Many of its capabilities have to do with the system's ability to store small chunks of data and to give each chunk a name. Many such chunks, more properly called variables, are available for your examination. For example, the variable named “USER” contains your user name. To invoke parameter expansion and reveal the contents of USER you would do this:

[me@linuxbox me]$ echo $USER
me

To see a list of available variables, try this:

[me@linuxbox me]$ printenv | less

You may have noticed that with other types of expansion, if you mistype a pattern, the expansion will not take place and the echo command will simply display the mistyped pattern. With parameter expansion, if you misspell the name of a variable, the expansion will still take place, but will result in an empty string:

[me@linuxbox me]$ echo $SUER
[me@linuxbox ~]$

Command Substitution

Command substitution allows us to use the output of a command as an expansion:

[me@linuxbox me]$ echo $(ls)
Desktop Documents ls-output.txt Music Pictures Public Templates Videos

One of my favorites goes something like this:

[me@linuxbox me]$ ls -l $(which cp)
-rwxr-xr-x 1 root root 71516 2007-12-05 08:58 /bin/cp

Here we passed the results of which cp as an argument to the ls command, thereby getting the listing of of the cp program without having to know its full pathname. We are not limited to just simple commands. Entire pipelines can be used (only partial output shown):

[me@linuxbox me]$ file $(ls /usr/bin/* | grep bin/zip)

/usr/bin/bunzip2:
/usr/bin/zip:      ELF 32-bit LSB executable, Intel 80386, version 1 
(SYSV), dynamically linked (uses shared libs), for GNU/Linux 2.6.15, stripped
/usr/bin/zipcloak: ELF 32-bit LSB executable, Intel 80386, version 1
(SYSV), dynamically linked (uses shared libs), for GNU/Linux 2.6.15, stripped
/usr/bin/zipgrep:  POSIX shell script text executable
/usr/bin/zipinfo:  ELF 32-bit LSB executable, Intel 80386, version 1
(SYSV), dynamically linked (uses shared libs), for GNU/Linux 2.6.15, stripped
/usr/bin/zipnote:  ELF 32-bit LSB executable, Intel 80386, version 1
(SYSV), dynamically linked (uses shared libs), for GNU/Linux 2.6.15, stripped
/usr/bin/zipsplit: ELF 32-bit LSB executable, Intel 80386, version 1
(SYSV), dynamically linked (uses shared libs), for GNU/Linux 2.6.15, stripped

In this example, the results of the pipeline became the argument list of the file command. There is an alternate syntax for command substitution in older shell programs which is also supported in bash. It uses back-quotes instead of the dollar sign and parentheses:

[me@linuxbox me]$ ls -l `which cp`
-rwxr-xr-x 1 root root 71516 2007-12-05 08:58 /bin/cp

Quoting

Now that we've seen how many ways the shell can perform expansions, it's time to learn how we can control it. Take for example:

[me@linuxbox me]$ echo this is a     test
this is a test

or:

[me@linuxbox me]$ [me@linuxbox ~]$ echo The total is $100.00
The total is 00.00

In the first example, word-splitting by the shell removed extra whitespace from the echo command's list of arguments. In the second example, parameter expansion substituted an empty string for the value of “$1” because it was an undefined variable. The shell provides a mechanism called quoting to selectively suppress unwanted expansions.

Double Quotes

The first type of quoting we will look at is double quotes. If you place text inside double quotes, all the special characters used by the shell lose their special meaning and are treated as ordinary characters. The exceptions are “$”, “\” (backslash), and “`” (back- quote). This means that word-splitting, pathname expansion, tilde expansion, and brace expansion are suppressed, but parameter expansion, arithmetic expansion, and command substitution are still carried out. Using double quotes, we can cope with filenames containing embedded spaces. Say you were the unfortunate victim of a file called two words.txt. If you tried to use this on the command line, word-splitting would cause this to be treated as two separate arguments rather than the desired single argument:

[me@linuxbox me]$ ls -l two words.txt

ls: cannot access two: No such file or directory
ls: cannot access words.txt: No such file or directory

By using double quotes, you can stop the word-splitting and get the desired result; further, you can even repair the damage:

[me@linuxbox me]$ ls -l "two words.txt"
-rw-rw-r-- 1 me me 18 2008-02-20 13:03 two words.txt
[me@linuxbox me]$ mv "two words.txt" two_words.txt

There! Now we don't have to keep typing those pesky double quotes. Remember, parameter expansion, arithmetic expansion, and command substitution still take place within double quotes:

[me@linuxbox me]$ echo "$USER $((2+2)) $(cal)"

me 4
February 2008
Su Mo Tu We Th Fr Sa
                1  2
 3  4  5  6  7  8  9
10 11 12 13 14 15 16
17 18 19 20 21 22 23
24 25 26 27 28 29

We should take a moment to look at the effect of double quotes on command substitution. First let's look a little deeper at how word splitting works. In our earlier example, we saw how word-splitting appears to remove extra spaces in our text:

[me@linuxbox me]$ echo this is a     test
this is a test

By default, word-splitting looks for the presence of spaces, tabs, and newlines (linefeed characters) and treats them as delimiters between words. This means that unquoted spaces, tabs, and newlines are not considered to be part of the text. They only serve as separators. Since they separate the words into different arguments, our example command line contains a command followed by four distinct arguments. If we add double quotes:

[me@linuxbox me]$ echo "this is a     test"
this is a     test

word-splitting is suppressed and the embedded spaces are not treated as delimiters, rather they become part of the argument. Once the double quotes are added, our command line contains a command followed by a single argument. The fact that newlines are considered delimiters by the word-splitting mechanism causes an interesting, albeit subtle, effect on command substitution. Consider the following:

[me@linuxbox me]$ echo $(cal)
February 2008 Su Mo Tu We Th Fr Sa 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
[me@linuxbox me]$ echo "$(cal)"

February 2008
Su Mo Tu We Th Fr Sa
                1  2
 3  4  5  6  7  8  9
10 11 12 13 14 15 16
17 18 19 20 21 22 23
24 25 26 27 28 29

In the first instance, the unquoted command substitution resulted in a command line containing thirty-eight arguments. In the second, a command line with one argument that includes the embedded spaces and newlines.

Single Quotes

If you need to suppress all expansions, you use single quotes. Here is a comparison of unquoted, double quotes, and single quotes:

[me@linuxbox me]$ echo text ~/*.txt {a,b} $(echo foo) $((2+2)) $USER
text /home/me/ls-output.txt a b foo 4 me
[me@linuxbox me]$ echo "text ~/*.txt {a,b} $(echo foo) $((2+2)) $USER"
text ~/*.txt {a,b} foo 4 me
[me@linuxbox me]$ echo 'text ~/*.txt {a,b} $(echo foo) $((2+2)) $USER'
text ~/*.txt {a,b} $(echo foo) $((2+2)) $USER

As you can see, with each succeeding level of quoting, more and more of the expansions are suppressed.

Escaping Characters

Sometimes you only want to quote a single character. To do this, you can precede a character with a backslash, which in this context is called the escape character. Often this is done inside double quotes to selectively prevent an expansion:

[me@linuxbox me]$ echo "The balance for user $USER is: \$5.00"
The balance for user me is: $5.00

It is also common to use escaping to eliminate the special meaning of a character in a filename. For example, it is possible to use characters in filenames that normally have special meaning to the shell. These would include “$”, “!”, “&”, “ “, and others. To include a special character in a filename you can to this:

[me@linuxbox me]$ mv bad\&filename good_filename

To allow a backslash character to appear, escape it by typing “\\”. Note that within single quotes, the backslash loses its special meaning and is treated as an ordinary character.

More Backslash Tricks

If you look at the man pages for any program written by the GNU project, you will notice that in addition to command line options consisting of a dash and a single letter, there are also long option names that begin with two dashes. For example, the following are equivalent:

ls -r
ls --reverse
       

Why do they support both? The short form is for lazy typists on the command line and the long form is mostly for scripts though some options may only be long form. I sometimes use obscure options, and I find the long form useful if I have to review a script again months after I wrote it. Seeing the long form helps me understand what the option does, saving me a trip to the man page. A little more typing now, a lot less work later. Laziness is maintained.

As you might suspect, using the long form options can make a single command line very long. To combat this problem, you can use a backslash to get the shell to ignore a newline character like this:

ls -l \
   --reverse \
   --human-readable \
   --full-time
       

Using the backslash in this way allows us to embed newlines in our command. Note that for this trick to work, the newline must be typed immediately after the backslash. If you put a space after the backslash, the space will be ignored, not the newline. Backslashes are also used to insert special characters into our text. These are called backslash escape characters. Here are the common ones:

Escape Character

Name

Possible Uses

\n

newline

Adding blank lines to text

\t

tab

Inserting horizontal tabs to text

\a

alert

Makes your terminal beep

\\

backslash

Inserts a backslash

\f

formfeed

Sending this to your printer ejects the page

The use of the backslash escape characters is very common. This idea first appeared in the C programming language. Today, the shell, C++, perl, python, awk, tcl, and many other programming languages use this concept. Using the echo command with the -e option will allow us to demonstrate:

[me@linuxbox me]$ echo -e "Inserting several blank lines\n\n\n"
Inserting several blank lines



[me@linuxbox me]$ echo -e "Words\tseparated\tby\thorizontal\ttabs."

Words separated   by  horizontal  tabs
[me@linuxbox me]$ echo -e "\aMy computer went \"beep\"."

My computer went "beep".

[me@linuxbox me]$ echo -e "DEL C:\\WIN2K\\LEGACY_OS.EXE"

DEL C:\WIN2K\LEGACY_OS.EXE

© 2000-2014, William E. Shotts, Jr. Verbatim copying and distribution of this entire article is permitted in any medium, provided this copyright notice is preserved.

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