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CS 1110: Introduction to Computing Using Python

Spring 2018

Using Text-Based Commands

Python first became popular as a scripting language, which is used to automate repetitive tasks on a computer. As a scripting language, it is heavily geared toward being used in text-based command shell. In order to learn how to get the most of out Python, you need to learn how to use your command shell.

Command shells are operating system dependent. They are called different things depending on whether you are using Windows, Mac OS , or Linux. The commands that you are allowed to type in them also depend on your choice of OS. Below we describe how to use the command shell in each of the popular computer operative systems.

The specific commands on the various operating systems are similar, but they can also be very, very different (particularly between Windows and OS X/Linux). If you have never used a command shell before, we highly recommand that you pick one operating system and use it for the entire semester; otherwise, this can get very confusing. In particular, if you have a Mac OS laptop, we suggest that you bring it to the lab sections, as the lab computers are all Windows machines.

As with the Python installation instructions, this tutorial has a very much "do this, do that" flavor to it. This is to give you a quick introduction to the command shell. But we are not expecting you to master the command shell immediately. You will get a lot of practice with it over the course of the semester.

[Overview]  [Windows]  [Mac OS ]  [Linux


Overview

Before learning the OS specific commands, it is important to understand what all command shells have in common. A command shell is a text-based version of a file manager. So it is the equivalent of Windows Explorer on Windows, or the Finder on OS X. At any given time it is open to a specific folder (or directory) on your computer. We call the folder that is currently open in the shell the working directory. The pictures below show a command shell and a graphical file manager with the same working directory.

 
Command Shell   Windows Explorer

From within the command shell, you can do everything that you could do with a graphical file manager. You can move, rename, and copy files. You can change the current directory. You can even run programs. In a graphical file manager, you run a program by double-clicking on it; in a command shell, you type the name of the program. We cover this in more detail in the Python tutorial.

Every computer user has what is known as a home directory. This is the folder that has your name. In Windows 7, this is usally a folder that sites on your desktop; in OS X, there is a button in the finder to take you to your home directory. Whenever you open a new command shell, it always starts in the home directory. As your homework and lab assignments will often be in different folders, the first thing you need to learn about the command shell is how to change directories. That is the focus of the tutorials below.


Windows

In Windows, the command shell is called the Command Prompt. In Windows 7 (which is the operating system in the ACCEL labs), it can be found in the Accessories folder of your Start Menu, as shown to the right. If you are using Windows 8 or 10, just search for "Command Prompt" in the search box at the bottom of the Start Menu.

When you start up the Command Prompt, you get a Window that looks something like the illustration below. At any given time, the bottom line of the Command Prompt is the working directory followed by a > symbol. This > symbol is the prompt that gives the Command Prompt its name. It is a cue for you to type something into the shell.

To get the Command Prompt to do something, simply type in a command, and hit Return. The shell will then process the command, either doing something or printing out an error message. When done, it will present the prompt again, ready for you to type in a new command.


The Windows Command Shell

As we mentioned above, the Command Prompt works like the Windows Explorer. At any given time it is open to a specific folder (or directory) on your computer, which we call the working directory.

When working on a Python assignment, you want to make sure that the working directory is the directory that contains the .py files you are currently editing. Many a student has found themselves editing a .py folder while testing one (of the same name) in a different folder. You might be tempted to just put everything in your home directory. However, this is a bad idea and as the folder will get very cluttered as the semester progresses.


Navigating Directories

The two most important commands to know in Windows are dir and cd. Typing in dir displays the current working directory as well as all of its contents. An example of the dir command is shown below.

The cd command is an abbreviation for "change directory". It is how you move from one folder to another. When you type this command into the Command Prompt, you must give it two things: the command cd and the name of the folder you wish to go to. Using the example above, suppose we wish to switch the working directory to Desktop. Then you would type

    cd Desktop

Try this out and then type dir; see the difference?

There are a couple of important tricks to know about the cd command.

Backing Out of a Directory

The simplest form cd can only move to a folder that is "sees" (e.g. is a folder inside the working directory). If you change to directory (such as Desktop), you can no longer see the original directory (your home directory); it is outside of the current working directory. So how do you back-out if you go into a folder by mistake?

The solution is that there is a special folder called "..". This refers to the folder that contains the current one. Type

    cd ..

and see what happens. If you typed it just after moving into the Desktop folder (from the previous example), then you should be back in your home directory.

Combining cd .. with regular uses of the cd command are enough to allow you to move up and down the directory hierarchy on your computer.

Tab Completion

If you are new to the Command Prompt, you might find yourself quickly getting tired of all the typing that you have to do. Particularly when you have a directory with a very long name. A slight misspelling and you have to start all over again.

Fortunately, Windows has tab completion to speed things up. Go to your home directory and type (but do not hit Return)

    cd D

Now hit the tab key. See what happens? Windows turns "D" into the first folder that it can find that starts with that letter (which is likely to be Desktop, and not Documents, as it comes first alphabetically).

Changing Multiple Directories at Once

Suppose you are currently in the your home directory; you want to move to the folder "Favorites" which is inside of "Documents". You could do this with two cd commands. But to do it with a single command, you just connect the folders with a \, as follows:

    cd Documents\Favorites

When you combine this with .., you can do some rather clever tricks. Suppose you are currently in the Desktop directory, and you want to move in the Documents directory (which is contained in your home directory). You can do this with the command

    cd ..\Documents

We refer to these expressions as paths; they are are a "path" from the working directory to the directory that you want to go to.

Absolute Paths

The paths that we have shown you are more properly called relative paths. They show how to get from the working directory to your new directory. The correct path to use depends on exactly which directory is the current working directory.

Absolute paths are paths that do not depend on the working directory; instead they depend on the disk drive. They always start with name of the drive. For example, suppose you inserted a USB drive into the computer, and you wanted to open that drive in the Command Prompt. The USB drive will (typically) be the the E: drive, so you simply type

    cd E:

You can combine this with the \ symbol to move anywhere you want on the USB stick. If the USB stick has a folder called "Python" on it, simply type

    cd E:\Python

Any time that you need to change disk drives, you need to use absolute paths. If your user account is called "Sally", then you return to your home directory by typing

    cd C:\Users\Sally

Folder Names with Spaces

The Command Prompt breaks up the commands that you type in by spaces. That means that if you have a folder with spaces in the name, it will break it up into references to two different folders. For example, suppose you have a folder called "Python Examples", and you type

    cd Python Examples

You will get an error saying that Windows cannot find that path.

To solve the problem, put the directory in quotes. The following should work correctly.

    cd "Python Examples"

If you are changing multiple directories then you need to put the entire path in quotes (not just the folder). For example, if you want to go to "Program Files" on the C drive, type

    cd "C:\Program Files"

The Drag-and-Drop Shortcut

If you do not learn anything else about the Command Prompt, you should learn this one trick (which works on OS X and most Linux systems as well). If you take a folder and drag-and-drop it onto the Command Prompt, it will fill the window with the absolute pathname of that folder. Therefore, to quickly move the Command Prompt to a a specific folder, do the following:

  • Type cd followed by a space.
  • Drag and drop the folder on to the Command Prompt.
  • Hit Return.


Click for Bigger Image

This is a very useful skill and you will see your instructor use it often in class.


Manipulating Files (OPTIONAL)

The Command Prompt allows you to do everything that Windows Explorer can do (and more). You can use the Command Prompt to make folders, move files, and delete files. However, none of this is necessary for you to learn. For this class, you never need to understand how to do anything other than navigate directories. You can do everything else in Windows Explorer (or some other program) if you wish.

Make a Directory

To make a new folder or directory, use the command mkdir followed by the name of the new folder. For example:

    mkdir MyFolder

The new folder will appear in the current working directory.

You can also delete a directory with the rmdir command. For example, to delete the folder we just made, type

    rmdir MyFolder

The command prompt will only delete empty directories. If there is anything in a directory, it will not let you delete it. You have to delete the contents first.

Move (or Rename) a File

You move files with the move command. The way this command works is that you give it two file names. It searches for a file with the first file name; once it finds it, it makes a copy with the new file name and then deletes the original.

For example, suppose you wanted to rename the file test.py to assignment3.py. Then you would type

    move test.py assignment3.py

(this by the way, illustrates why paths cannot have spaces in them).

If the second filename is path to a file, then it will move the the file into the correct directory. For example, suppose we now wanted to move assignment3.py to the Desktop (which is a folder in the current working directory), and rename it completed.py. Then we would type

   move assignment3.py Desktop\completed.py

If we want to keep the name as assignment3.py, you could shorten this to

   move assignment3.py Desktop

In this case, the Command Prompt will move assignment3.py into Desktop, but keep the name of the file unchanged.

Copy a File

The move command will always delete the original (name of) the file when it is done. Sometimes we want to make a copy of a file. We do that with the copy command. Suppose that assignment3.py is in the working directory and we want to put a copy on the Desktop without deleting the original. Then we would type

   copy assignment3.py Desktop\assignment3.py

Delete a File

Files are deleted with the del command. In our running example, to delete the file assignment3.py, you would type

    del assignment3.py

Be very careful with this command. It completely erases the file. It does not move the file your Recycle Bin. You cannot retrieve a file deleted this way.


Getting Help

There are hundreds of resources out there on how to learn to use the Command Prompt in Windows. If you want to learn more, we suggest this tutorial as a starting point.

If have are having difficulty with the Command Prompt, please see one of the course staff or consultants. They are available to help.


Mac OS

On the Mac OS , the command shell is called the Terminal. If it is not in your Dock, it can be found in the Applications > Utilities folder as shown below. We recommend putting it in your Dock immediately. An alternate shortcut is to use Spotlight to search for the Terminal: ⌘+Space brings up a search bar where you can type "Terminal" in.

When you start up the Terminal, you will get some message about the "last login" (a hold over of the days in which Terminals were used to connect machines over the network) followed by a line with a cursor that looks like a box. The left side of the line will depend on your settings, but the last symbol will likely be either a $ or a >. This symbol is called the prompt, and it is a cue for you to type something into the Terminal.

To get the Terminal to do something, simply type in a command, and hit Return. The shell will then process the command, either doing something or printing out an error message. When done, it will present the prompt again, ready for you to type in a new command.

As we mentioned above, the Command Prompt works a lot like the Finder. At any given time it is open to a specific folder (or directory) on your computer, which we call the working directory.

When working on a Python assignment, you want to make sure that the working directory is the directory that contains the .py files you are currently editing. Many a student has found themselves editing a .py folder while testing one (of the same name) in a different folder. You might be tempted to just put everything in your home directory. However, this is a bad idea and as the folder will get very cluttered as the semester progresses.


Navigating Directories

Because you often need to change your working directory, the three most important commands to know in the Terminal are pwd, ls, and cd. Typing in pwd displays the current working directory. The command ls lists the contents (files and folders) in the working directory. An example of these two commands is shown below.

The cd command is an abbreviation for "change directory". It is how you move from one folder to another. When you type this command into the Terminal, you must give it two things: the command cd and the name of the folder you wish to go to. Using the example above, suppose you wish to switch the working directory to Desktop. Then you would type

    cd Desktop

Try this out and then type ls; see the difference?

There are a couple of important tricks to know about the cd command.

Backing Out of a Directory

The simplest form cd can only move to a folder that is "sees" (e.g. is a folder inside the working directory). If you change to directory (such as Desktop), you can no longer see the original directory (your home directory); it is outside of the current working directory. So how do you back-out if you go into a folder by mistake?

The solution is that there is a special folder called "..". This refers to the folder that contains the current one. Type

    cd ..

and see what happens. If you typed it just after moving into the Desktop folder (from the previous example), then you should be back in your home directory.

Combining cd .. with regular uses of the cd command are enough to allow you to move up and down the directory hierarchy on your computer.

It is also possible to type cd by itself, without a directory name. If you do this, it will immediately put you back in your home folder. This is very helpful should you ever get lost while using the Terminal.

Tab Completion

If you are new to the Terminal, you might find yourself quickly getting tired of all the typing that you have to do. Particularly when you have a directory with a very long name. A slight misspelling and you have to start all over again.

Fortunately, OS X has tab completion to speed things up. Go to your home directory and type (but do not hit Return)

    cd Desk

Now hit the tab key. See what happens? It completes the work "Desk" to "Desktop", because it is the only thing in your home folder that starts with "Desk" (if you actually do have something else in your folder that starts with "Desk", this example will not work).

As another example type (but do not hit Return)

    cd D

and hit tab again. There are at least two things in your home directory that start with D: Desktop and Documents. OS X does not know which one to complete to, so it lists the possibilities for you. Tab autocompletion only works when the Terminal has enough information to uniquely pick one option from the current folder. Try doing this again with

    cd De

What happens?

Changing Multiple Directories at Once

Suppose you are currently in the your home directory and you want to move to the folder "iTunes" which is inside of "Music". You could do this with two cd commands. But to do it with a single command, you just connect the folders with a /, as follows:

    cd Music/iTunes

When you combine this with .., you can do some rather clever tricks. Suppose you are currently in the Desktop directory, and you want to move in the Documents directory (which is contained in your home directory). You can do this with the command

    cd ../Documents

We refer to these expressions as paths; they are are a "path" from the working directory to the directory that you want to go to.

Absolute Paths

The paths that we have shown you are more properly called relative paths. They show how to get from the working directory to your new directory. The correct path to use depends on exactly which directory is the current working directory.

Absolute paths are paths that do not depend on the working directory. In OS X (and all Unix systems), absolute paths start with a /. This / represents the root directory that contains everything else. For example, if you wanted to go to your Applications directory (which is just inside the root directory), you would type

    cd /Applications

Absolute paths are very important when you are trying to navigate to a different disk drive. In OS X, when you plug in a new disk drive it is added to the /Volumes folder (note the / indicating that Volumes is just inside the root folder). Suppose you have a Kingston USB drive from the Campus store named KINGSTON. To view the contents of this drive in the terminal, type

    cd /Volumes/KINGSTON

To drive home the difference between relative and absolute paths, create a folder called "Applications" in your home directory. Make sure the terminal is in the home directory (go home by typing cd by itself) and type

    cd Applications

Look at the contents with ls. Now go back to the home directory again and type

    cd /Applications

Look at the contents with ls. See the difference?

Folder Names with Spaces

The Terminal breaks up the commands that you type in by spaces. That means that if you have a folder with spaces in the name, it will break it up into references to two different folders. For example, suppose you have a folder called "Python Examples", and you type

    cd Python Examples

You will (likely) get an error saying that the folder "Python" does not exist.

To solve the problem, put the directory in quotes. The following should work correctly.

    cd "Python Examples"

If you are changing multiple directories then you need to put the entire path in quotes (not just the folder). For example, if "Python Examples" were on the Desktop, you would type

    cd "Desktop/Program Files"

Alternatively, you can represent a space using the escape character \ which we talked about in class. For example, the following should also work correctly:

    cd Python\ Examples

If you use Tab Completion a lot, you will notice that this is the prefered way of handling spaces.

The Drag-and-Drop Shortcut

If you do not learn anything else about the Terminal, you should learn this one trick (which works on Windows as well). If you take a folder and drag and drop it onto the Terminal, it will fill the window with the absolute pathname of that folder. Therefore, to quickly move the Terminal to a a specific folder, do the following:

  • Type cd followed by a space.
  • Drag and drop the folder on to the Terminal window.
  • Hit Return.


Click for Bigger Image

If you are using OS X Lion (10.7) or a more recent version, there is an even faster trick you can try. Simply take the folder icon and drop it onto the Terminal icon (in your Dock), and it will open a new Terminal window with that folder as its working directory. This is a very useful skill and you will see your instructor use it often in class.


Manipulating Files (OPTIONAL)

The Terminal allows you to do everything that Finder can do (and more). You can use the Terminal to make folders, move files, and delete files. However, none of this is necessary for you to learn. For this class, you never need to understand how to do anything other than navigate directories. You can do everything else in the Finder (or some other program) if you wish.

Make a Directory

To make a new folder or directory, use the command mkdir followed by the name of the new folder. For example, type:

    mkdir MyFolder

The new folder will appear in the current working directory.

You can also delete a directory with the rmdir command. For example, to delete the folder you just made, type

    rmdir MyFolder

The Terminal will only delete empty directories. If there is anything in a directory, it will not let you delete it. You have to delete the contents first.

Move (or Rename) a File

You move files with the mv command. The way this command works is that you give it two file names. It searches for a file with the first file name; once it finds it, it makes a copy with the new file name and then deletes the original.

For example, suppose you wanted to rename the file test.py to assignment3.py. Then you would type

    mv test.py assignment3.py

(this by the way, illustrates why paths cannot have spaces in them).

If the second filename is path to a file, then it will move the the file into the correct directory. For example, suppose you now wanted to move assignment3.py to the Desktop (which is a folder in the current working directory), and rename it completed.py. Then you would type

   mv assignment3.py Desktop/completed.py

If you want to keep the name as assignment3.py, you could shorten this to

   mv assignment3.py Desktop

In this case, the Terminal will move assignment3.py into Desktop, but keep the name of the file unchanged.

Copy a File

The mv command will always delete the original (name of) the file when it is done. Sometimes you want to make a copy of a file. We do that with the cp command. Suppose that assignment3.py is in the working directory and we want to put a copy on the Desktop without deleting the original. Then you would type

   copy assignment3.py Desktop/assignment3.py

Delete a File

Files are deleted with the rm command. In our running example, to delete the file assignment3.py, you would type

    rm assignment3.py

Be very careful with this command. It completely erases the file. It does not move the file your Trash. You cannot retrieve a file deleted this way.


Getting Help

There are many resources out there on how to learn to use the Terminal in OS X. If you want to learn more, we suggest this tutorial as a starting point.

If have are having difficulty with the Terminal, please see one of the course staff or consultants. They are available to help.


Linux

Let's be honest here. If you use Linux, do you really need to learn how to use the command shell? How is it possible to do anything in Linux without knowing how to use the command shell?

On the off chance that you honestly have never used a command shell in Linux, the hard part is finding the program that provides access to the shell. Which program to use depends on your choice of GUI.

Once you have that running, simply refer to the instructions for OS X. While the programs are not exactly the same (particularly if you are running a shell other than Bash), they are close enough for purposes of this class.

If you need more help with using the command shell in Linux, please see one of the course staff or consultants.


Course Material by: E. Andersen, A. Bracy, D. Gries, L. Lee, S. Marschner, C. Van Loan, W. White