The Unix Shell

Shell Scripts

Learning Objectives

  • Write a shell script that runs a command or series of commands for a fixed set of files.
  • Run a shell script from the command line.
  • Write a shell script that operates on a set of files defined by the user on the command line.
  • Create pipelines that include user-written shell scripts.

We are finally ready to see what makes the shell such a powerful programming environment. We are going to take the commands we repeat frequently and save them in files so that we can re-run all those operations again later by typing a single command. For historical reasons, a bunch of commands saved in a file is usually called a shell script, but make no mistake: these are actually small programs.

Let’s start by going back to novice/shell/data and putting the following line into a new file called middle.sh using an editor:

head -15 sc_climate_data_1000.csv | tail -5

This is a variation on the pipe we constructed earlier: it selects lines 11-15 of the file sc_climate_data_1000.csv. Remember, we are not running it as a command just yet: we are putting the commands in a file.

Once we have saved the file, we can ask the shell to execute the commands it contains. Our shell is called bash, so we run the following command:

$ bash middle.sh
299196.8188,972890.0521,48.07,61.41,0.78
324196.8188,972890.0521,48.20,-9999.00,0.72
274196.8188,968890.0521,47.86,60.94,0.83
275196.8188,968890.0521,47.86,61.27,0.83
248196.8188,961890.0521,46.22,58.98,1.43

Sure enough, our script’s output is exactly what we would get if we ran that pipeline directly.

What if we want to select lines from an arbitrary file? We could edit middle.sh each time to change the filename, but that would probably take longer than just retyping the command. Instead, let’s edit middle.sh and replace sc_climate_data_1000.csv with a special variable called $1:

$ cat middle.sh
head -15 "$1" | tail -5

Inside a shell script, $1 means “the first filename (or other parameter) on the command line”. We can now run our script like this:

$ bash middle.sh sc_climate_data_1000.csv
299196.8188,972890.0521,48.07,61.41,0.78
324196.8188,972890.0521,48.20,-9999.00,0.72
274196.8188,968890.0521,47.86,60.94,0.83
275196.8188,968890.0521,47.86,61.27,0.83
248196.8188,961890.0521,46.22,58.98,1.43

or on a different file like this (our full data set!):

$ bash middle.sh sc_climate_data.csv
359196.8188,1017890.052,49.39,58.95,0.70
338196.8188,1011890.052,49.28,58.73,0.74
321196.8188,981890.0521,48.20,61.41,0.72
296196.8188,974890.0521,48.07,61.27,0.78
299196.8188,972890.0521,48.07,61.41,0.78

We still need to edit middle.sh each time we want to adjust the range of lines, though. Let’s fix that by using the special variables $2 and $3:

$ cat middle.sh
head "$2" "$1" | tail "$3"
$ bash middle.sh sc_climate_data_1000.csv -20 -5
252196.8188,961890.0521,46.22,60.94,1.43
152196.8188,960890.0521,48.81,-9999.00,1.08
148196.8188,959890.0521,48.81,59.43,1.08
325196.8188,957890.0521,48.20,61.36,0.72
326196.8188,957890.0521,47.44,61.36,0.80

This does work, but it may take the next person who reads middle.sh a moment to figure out what it does. We can improve our script by adding some comments at the top:

$ cat middle.sh
# Select lines from the middle of a file.
# Usage: middle.sh filename -end_line -num_lines
head "$2" "$1" | tail "$3"

A comment starts with a # character and runs to the end of the line. The computer ignores comments, but they’re invaluable for helping people understand and use scripts.

What if we want to process many files in a single pipeline? For example, if we want to sort our .csv files by length, we would type:

$ wc -l *.csv | sort -n

because wc -l lists the number of lines in the files (recall that wc stands for ‘word count’, adding the -l flag means ‘count lines’ instead) and sort -n sorts things numerically. We could put this in a file, but then it would only ever sort a list of .csv files in the current directory. If we want to be able to get a sorted list of other kinds of files, we need a way to get all those names into the script. We can’t use $1, $2, and so on because we don’t know how many files there are. Instead, we use the special variable $@, which means, “All of the command-line parameters to the shell script.” We also should put $@ inside double-quotes to handle the case of parameters containing spaces ("$@" is equivalent to "$1" "$2" …) Here’s an example:

$ cat sorted.sh
wc -l "$@" | sort -n
$ bash sorted.sh *.csv ../test_directory/creatures/*.dat
      11 sc_climate_data_10.csv
     155 ../test_directory/creatures/minotaur.dat
     163 ../test_directory/creatures/basilisk.dat
     163 ../test_directory/creatures/unicorn.dat
    1001 sc_climate_data_1000.csv
 1048580 sc_climate_data.csv
 1050073 total

We have two more things to do before we’re finished with our simple shell scripts. If you look at a script like:

wc -l "$@" | sort -n

you can probably puzzle out what it does. On the other hand, if you look at this script:

# List files sorted by number of lines.
wc -l "$@" | sort -n

you don’t have to puzzle it out — the comment at the top tells you what it does. A line or two of documentation like this make it much easier for other people (including your future self) to re-use your work. The only caveat is that each time you modify the script, you should check that the comment is still accurate: an explanation that sends the reader in the wrong direction is worse than none at all.

Second, suppose we have just run a series of commands that did something useful — for example, that created a graph we’d like to use in a paper. We’d like to be able to re-create the graph later if we need to, so we want to save the commands in a file. Instead of typing them in again (and potentially getting them wrong) we can do this:

$ history | tail -4 > redo-figure-3.sh

The file redo-figure-3.sh now contains:

297 bash goostats -r NENE01729B.txt stats-NENE01729B.txt
298 bash goodiff stats-NENE01729B.txt /data/validated/01729.txt > 01729-differences.txt
299 cut -d ',' -f 2-3 01729-differences.txt > 01729-time-series.txt
300 ygraph --format scatter --color bw --borders none 01729-time-series.txt figure-3.png

After a moment’s work in an editor to remove the serial numbers on the commands, we have a completely accurate record of how we created that figure.

In practice, most people develop shell scripts by running commands at the shell prompt a few times to make sure they’re doing the right thing, then saving them in a file for re-use. This style of work allows people to recycle what they discover about their data and their workflow with one call to history and a bit of editing to clean up the output and save it as a shell script.

Variables in shell scripts

In the test_directory/molecules directory, you have a shell script called script.sh containing the following commands:

head $2 $1
tail $3 $1

While you are in the molecules directory, you type the following command:

bash script.sh '*.pdb' -1 -1

Which of the following outputs would you expect to see?

  1. All of the lines between the first and the last lines of each file ending in *.pdb in the molecules directory
  2. The first and the last line of each file ending in *.pdb in the molecules directory
  3. The first and the last line of each file in the molecules directory
  4. An error because of the quotes around *.pdb

List unique species

Leah has several hundred data files, each of which is formatted like this:

2013-11-05,deer,5
2013-11-05,rabbit,22
2013-11-05,raccoon,7
2013-11-06,rabbit,19
2013-11-06,deer,2
2013-11-06,fox,1
2013-11-07,rabbit,18
2013-11-07,bear,1

Write a shell script called species.sh that takes any number of filenames as command-line parameters, and uses cut, sort, and uniq to print a list of the unique species appearing in each of those files separately.

Why record commands in the history before running them?

If you run the command:

history | tail -5 > recent.sh

the last command in the file is the history command itself, i.e., the shell has added history to the command log before actually running it. In fact, the shell always adds commands to the log before running them. Why do you think it does this?

Script reading comprehension

Joel’s data directory contains three files: fructose.dat, glucose.dat, and sucrose.dat. Explain what a script called example.sh would do when run as bash example.sh *.dat if it contained the following lines:

# Script 1
echo *.*
# Script 2
for filename in $1 $2 $3
do
    cat $filename
done
# Script 3
echo $@.dat