Introducing the Shell

Overview

Teaching: 20 min
Exercises: 10 min
Questions
  • What is a command shell and why would I use one?

  • How can I move around on my computer?

  • How can I see what files and directories I have?

  • How can I specify the location of a file or directory on my computer?

Objectives
  • Describe key reasons for learning shell.

  • Navigate your file system using the command line.

  • Access and read help files for bash programs and use help files to identify useful command options.

  • Demonstrate the use of tab completion, and explain its advantages.

What is a shell and why should I care?

A shell is a computer program that presents a command line interface which allows you to control your computer using commands entered with a keyboard instead of controlling graphical user interfaces (GUIs) with a mouse/keyboard combination.

There are many reasons to learn about the shell.

Automation

In this lesson you will learn how to use the command line interface to move around in your file system.

How to access the shell

On a Mac or Linux machine, you can access a shell through a program called Terminal, which is already available on your computer. If you’re using Windows, you’ll need to download a separate program to access the shell.

We will spend most of our time learning about the basics of the shell by manipulating some experimental data. Some of the data we’re going to be working with is quite large, and we’re also going to be using several bioinformatics packages in later lessons to work with this data. To avoid having to spend time downloading the data and downloading and installing all of the software, we’re going to be working with data on a remote server.

You can log-in to the remote server using the instructions here. Your instructor will supply the ip_address and password that you need to login.

Each of you will have a different ip_address. This will prevent us from accidentally changing each other’s files as we work through the exercises. The password will be the same for everyone.

After loging on, you will see a screen showing something like this:

Welcome to Ubuntu 14.04.3 LTS (GNU/Linux 3.13.0-48-generic x86_64)

 * Documentation:  https://help.ubuntu.com/

  System information as of Wed Oct 25 21:24:00 UTC 2017

  System load:  0.0                Processes:           147
  Usage of /:   48.6% of 98.30GB   Users logged in:     0
  Memory usage: 28%                IP address for eth0: 172.31.30.246
  Swap usage:   0%

  Graph this data and manage this system at:
    https://landscape.canonical.com/

  Get cloud support with Ubuntu Advantage Cloud Guest:
    http://www.ubuntu.com/business/services/cloud

483 packages can be updated.
322 updates are security updates.


Last login: Wed Oct 25 21:24:02 2017 from 104.220.130.189

This provides a lot of information about the remote server that you’re logging in to. We’re not going to use most of this information for our workshop, so you can clear your screen using the clear command.

$ clear

This will scroll your screen down to give you a fresh screen and will make it easier to read. You haven’t lost any of the information on your screen. If you scroll up, you can see everything that has been output to your screen up until this point.

The part of the operating system responsible for managing files and directories is called the file system. It organizes our data into files, which hold information, and directories (also called “folders”), which hold files or other directories.

Several commands are frequently used to create, inspect, rename, and delete files and directories.

Preparation Magic

If you type the command: PS1='$ ' into your shell, followed by pressing the ‘enter’ key, your window should look like our example in this lesson.
This isn’t necessary to follow along (in fact, your prompt may have other helpful information you want to know about). This is up to you!

$

The dollar sign is a prompt, which shows us that the shell is waiting for input; your shell may use a different character as a prompt and may add information before the prompt. When typing commands, either from these lessons or from other sources, do not type the prompt, only the commands that follow it.

Let’s find out where we are by running a command called pwd (which stands for “print working directory”). At any moment, our current working directory is our current default directory, i.e., the directory that the computer assumes we want to run commands in unless we explicitly specify something else. Here, the computer’s response is /home/dcuser, which is the top level directory within our cloud system:

$ pwd
/home/dcuser

Let’s look at how our file system is organized.

At the top is our dcuser directory, which holds all the subdirectories and files.

Inside that directory are some other directories:

FastQC	TrimGalore-0.4.5  Trimmomatic-0.32  dc_sample_data  freebayes  pplacer-Linux-v1.1.alpha17  quast-4.6.1

We’ll be working with these subdirectories throughout this workshop.

The command to change locations in our file system is cd followed by a directory name to change our working directory. cd stands for “change directory”.

Let’s say we want to navigate to the dc_sample_data directory we saw above. We can use the following command to get there:

$ cd dc_sample_data

We can see files and subdirectories are in this directory by running ls, which stands for “listing”:

$ ls
sra_metadata  untrimmed_fastq

ls prints the names of the files and directories in the current directory in alphabetical order, arranged neatly into columns. We can make its output more comprehensible by using the flag -F, which tells ls to add a trailing / to the names of directories:

$ ls -F
sra_metadata/  untrimmed_fastq/

Anything with a “/” after it is a directory. Things with a “*” after them are programs. If there are no decorations, it’s a file.

ls has lots of other options. To find out what they are, we can type:

$ man ls

Some manual files are very long. You can scroll through the file using your keyboard’s down arrow or use the space key to go forward one page and the b key to go backwards one page. When you are done reading, hit q to quit.

Challenge

Use the -l option for the ls command to display more information for each item in the directory. What is one piece of additional information this long format gives you that you don’t see with the bare ls command?

Solution

$ ls -l
drwxr-x--- 2 dcuser dcuser 4096 Jul 30  2015 sra_metadata
drwxr-xr-x 2 dcuser dcuser 4096 Jul 30  2015 untrimmed_fastq

The additional information given includes the name of the owner of the file, when the file was last modified, and whether the current user has permission to read and write to the file.

No one can possibly learn all of these arguments, that’s why the manual page is for. You can (and should) refer to the manual page or other help files as needed.

Let’s go into the untrimmed_fastq directory and see what is in there.

$ cd untrimmed_fastq
$ ls -F
SRR097977.fastq  SRR098026.fastq

This directory contains two files with .fastq extensions. FASTQ is a format for storing information about sequencing reads and their quality. We will be learning more about FASTQ files in a later lesson.

Shortcut: Tab Completion

Typing out file or directory names can waste a lot of time and it’s easy to make typing mistakes. Instead we can use tab complete as a shortcut. When you start typing out the name of a directory or file, then hit the tab key, the shell will try to fill in the rest of the directory or file name.

For example, type cd to go back to your home directory, then enter:

$ cd dc_sam<tab>

The shell will fill in the rest of the directory name for dc_sample_data.

Now change directories to untrimmed_fastq in dc_sample_data

$ cd dc_sample_data
$ cd untrimmed_fastq

Using tab complete can be very helpful. However, it will only autocomplete a file or directory name if you’ve typed enough characters to provide a unique identifier for the file or directory you are trying to access.

If we navigate back to our untrimmed_fastq directory and try to access one of our sample files:

$ cd
$ cd dc_sample_data
$ cd untrimmed_fastq
$ ls SR<tab>

The shell auto-completes your command to SRR09, because all file names in the directory begin with this prefix. When you hit tab again, the shell will list the possible choices.

$ ls SRR09<tab><tab>
SRR07.fastq  SRR098026.fastq

Tab completion can also fill in the names of programs, which can be useful if you remember the begining of a program name.

$ pw<tab><tab>
pwd         pwd_mkdb    pwhich      pwhich5.16  pwhich5.18  pwpolicy

Displays the name of every program that starts with pw.

Summary

We now know how to move around our file system using the command line. This gives us an advantage over interacting with the file system through a GUI as it allows us to work on a remote server, carry out the same set of operations on a large number of files quickly, and opens up many opportunities for using bioinformatics software that is only available in command line versions.

In the next few episodes, we’ll be expanding on these skills and seeing how using the command line shell enables us to make our workflow more efficient and reproducible.

Key Points

  • The shell gives you the ability to work more efficiently by using keyboard commands rather than a GUI.

  • Useful commands for navigating your file system include: ls, pwd, and cd.

  • Most commands take options (flags) which begin with a -.

  • Tab completion can reduce errors from mistyping and make work more efficient in the shell.