Unix Shell Scripts
1 Introduction
well i have talked about many of the facilities of the C shell, such as command aliasing, job control, etc. In addition, any collection of csh commands may be stored in a file, and csh can be invoked to execute the commands in that file. Such a file is known as a shell script file. The language used in that file is called shell script language. Like other programming languages it has variables and flow control statements (e.g. if-then-else, while, for, goto).
In Unix there are several shells that can be used, the C shell ( csh and its extension, the T C shell tcsh), the Bourne Shell (sh and its extensions the Bourne Again Shell bash and the highly programmable Korn shell ksh ) being the more commonly used.
Note that you can run any shell simply by typing its name. For example, if I am now running csh and wish to switch to ksh, I simply type ksh, and a Korn shell will start up for me. All my commands from that point on will be read and processed by the Korn shell (though when I eventually want to log off, exiting the Korn shell will still leave me in the C shell, so I will have to exit from it too).
2 Invoking Shell Scripts
There are two ways to invoke a shell script file.
2.1 Direct Interpretation
In direct interpretation, the command
csh filename [arg ...]
invokes the program csh to interpret the script contained in the file `filename'.
2.2 Indirect Interpretation
In indirect interpretation, we must insert as the first line of the file
#! /bin/csh
or
#! /bin/csh -f
(there are situations in which this is not necessary, but it won't hurt to have it), and the file must be made executable using chmod (see previous discussion). Then it can be invoked in the same way as any other command, i.e., by typing the script file name on the command line.
The -f option says that we want fast startup, which it will achieve by not reading or executing the commands in .cshrc Thus for example, we won't have the `set' values for shell variables or the aliases from that file, but if we don't need them, this will be much faster (if we need a few of them, we can simply add them to the script file itself).
3 Shell Variables
Like other programming languages the csh language has variables. Some variables are used to control the operation of the shell, such as $path and $history, which we discussed earlier. Other variables can be created and used to control the operation of a shell script file.
3.1 Setting Variables
Values of shell variable are all character-based: A value is formally defined to be a list of zero or more elements, and an element is formally defined to be a character string. In other words, a shell variable consists of an array of strings.
For example,
set X
will set the variable $X to have an empty list as its value. The command
set V = abc
will set V to have the string `abc' as its value. The command
set V = (123 def ghi)
will set V to a list of three elements, which are the strings `123', `def' and `ghi'.
The several elements of a list can be treated like array elements. Thus for V in the last example above, $V[2] is the string `def'. We could change it, say to `abc', by the command
set V[2] = abc
3.2 Referencing and Testing Shell Variables
The value of a shell variable can be referenced by placing a $ before the name of the variable. The command
echo $path
will output the value of the variable $path. Or you can access the variable by enclosing the variable name in curly brace characters, and then prefixing it with a $. The command
echo ${path}
would have the same result as the last example. The second method is used when something is to be appended to the contents of the variable. For example, consider the commands
set fname = prog1
rm ${fname}.c
These would delete the file `prog1.c'.
To see how many elements are in a variable's list, we prefix with a # then a $. The command
echo $#V
above would print 3 to the screen, while
echo $#path
would reveal the number of directories in your search path.
The @ command can be used for computations. For example, if you have shell variables $X and $Y, you can set a third variable $Z to their sum by
@Z = $X + $Y
4 Command Arguments
Most commands have arguments (parameters), and these are accessible via the shell variable $argv. The first parameter will be $argv[1], the second $argv[2], and so on. You can also refer to them as $1, $2, etc. The number of such arguments (analogous to argc in the C language) is $#argv.
For example, consider the following script file, say named Swap:
#! /bin/csh -f
set tmp = $argv[1]
cp $argv[2] $argv[1]
cp $tmp $argv[2]
This would do what its name implies, i.e. swap two files. If, say, I have files x and y, and I type
Swap x y
then the new contents of x would be what used to be y, and the new contents of y would be what used to be x.
5 Language Constructs
The shell script language, like other programming languages, has constructs for conditional execution (if-then-else; while), iterative execution (for loop), a switch statement, and a goto statement:
1. if-then-else
The syntax of the if-then-else construct is
if ( expr ) simple-command
or
if ( expr ) then
commandlist-1
[else
commandlist-2]
endif
The expression expr will be evaluated and according to its value, the commandlist-1 or the commandlist-2 will be executed. The portion of the construct enclosed in '[' and ']' is optional.1
As an example, suppose we write a shell script which is supposed to have two parameters, and that the code will set up two variables, `name1' and `name2' from those two parameters, i.e.
set name1 = $argv[1]
set name2 = $argv[2]
(which presumably it would make use of later on). But suppose we also wish to do error-checking, emitting an error message if the user gives fewer than two, or more than two, parameters. We could use the following code
if ($#argv <> 2) then
echo "you must give exactly two parameters"
else
set name1 = $argv[1]
set name2 = $argv[2]
endif
2. while
The syntax of while loop construct is
while ( expr )
commandlist
end
The commandlist will be executed until the expr evaluates to false.
3. foreach
The syntax of foreach loop construct is
foreach var ( worddlist )
commandlist
end
The commandlist is executed once for each word in the wordlist, and each time the variable var will contain the value of that word. For example, the following script can search all immediate subdirectories of the current directory for a given file (and then quit if it finds one):
#! /bin/csh -f
set f = $1
foreach d (*)
if (-e $d/$f) then
echo FOUND: $d/$f
exit(0)
endif
end
echo $f not found in subdirectories
For example, say I call this script FindImm, and my current directory consists of files s, t and u, with s and t being subdirectories, and with t having a file x. Typing
FindImm x
would yield the message
FOUND: t/x
Here is how it works: In the line
foreach d (*)
the `*' is a wild card, so it would expand to a list of all files in my current directory, i.e. the list (s t u). So, the for-loop will first set d = s, then d = t and finally d = u.
In the line
if (-e $d/$f) then
the -e means existence; in other words, we are asking if the file $d/$f exists. If we type `FindImm x' as in the example above, $f would be x, and $d would start out as s, so we would be asking if the file s/x exists (the answer would be no).
4. switch
The switch command provides a multiple branch similar to the switch statement in C. The general form of switch is:
switch ( str )
case string1:
commandlist1
breaksw
case string2:
commandlist2
breaksw
default
commandlist
endsw
The given string str is successively matched against the case patterns. Control flow is switched to where the first match occurs. As in file name expansion, a case label may be a literal string, or contain variable substitution, or contain wild-card character such as *,?, etc.
5. Goto
The goto command provides a way to branch unconditionally to a line identified by a label.
goto lab
where lab is a label on a line (by itself) somewhere in the script in the form
lab:
6 Examples
6.1 A Shell Script For Deleting Files
This code, which we will call Del, will delete files like rm does, prompting for your confirmation for each file to be deleted, including directory files (which the -i option of rm won't do).
#! /bin/csh -f
foreach name ($argv)
if ( -f $name ) then
echo -n "delete the file '${name}' (y/n/q)?"
else
echo -n "delete the entire directory '${name}' (y/n/q)? "
endif
set ans = $<
switch ($ans)
case n:
continue
case q:
exit
case y:
rm -r $name
continue
endsw
end
(Before reading further, try this program yourself. Set up a test directory, with several files in it, at least one of which is a subdirectory, with at least one file there. Then type `Del *'.)
The line
if ( -f $name ) then
tests to see if the file whose name is in $name is an ordinary file, as opposed to a directory file.
The -n option of echo tells the shell not to print the newline character, so that our answer, y/n/q, will be on the same line.
In the line
set ans = $<
the symbol `$ < ' means the input from the keyboard.
The keyword `continue' means to go to the top of the enclosing loop.
The -r option of the rm command means that if an argument is a directory, then remove that directory, and all the files (and subdirectories, etc.) within it.
7 Further Information
There are several books dealing with the C shell, but you should first read the man page for csh. You will find all kinds of features not mentioned here.