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The goal of this exercise is to learn some basics of debugging Python code.

Contents

Getting set up

At this point, you should have (1) an account on Github and (2) been introduced to the very basics of Git.

  1. Login to your Github account.

  2. Fork this repository, by clicking the 'Fork' button on the upper right of the page.

    After a few seconds, you should be looking at your copy of the repo in your own Github account.

  3. Click the 'Clone or download' button, and copy the URL of the repo via the 'copy to clipboard' button.

  4. In your terminal, navigate to where you want to keep this repo (you can always move it later, so just your home directory is fine). Then type:

    $ git clone the-url-you-just-copied
    

    and hit enter to clone the repository. Make sure you are cloning your fork of this repo.

  5. Next, cd into the directory:

    $ cd the-name-of-directory-you-just-cloned
    
  6. At this point, you should be in your own local copy of the repository.

  7. As you work on the exercise below, be sure to frequently add and commit your work and push changes to the remote copy of the repo hosted on GitHub. Don't enter these commands now; this is just to jog your memory:

    $ # Do some work
    $ git add file-you-worked-on.py
    $ git commit
    $ git push origin master
    

Learning objective

Learn how to use the Python debugging module.

The Python debugger

Almost all programs have bugs. Following good coding practices can help you minimize bugs, and using print statements can go a long way in helping you find and fix them. However, some bugs are tricky to find, and scattering print statements all over your code is not an efficient solution.

Thankfully, Python has a powerful debugger build right in: The pdb module (which stands for Python debugger). For this exercise, we will learn how to use the pdb to fix bugs in the area_of_rectangle.py script included in this repo.

Running the script through the debugger

First, open the area_of_rectangle.py script and read it over to get a sense of what it should be doing. Then, try running it:

$ python3 area_of_rectangle.py 
area_of_rectangle.py: Expecting one or two command-line arguments:
	the height of a square or the height and width of a rectangle

We got a message saying that the script expects one or two arguments: the height of a square or the height and width of a rectangle. Let's try running it again with two arguments:

$ python3 area_of_rectangle.py 3 6
Traceback (most recent call last):
  File "area_of_rectangle.py", line 49, in <module>
    area = area_of_rectangle(height, width)
  File "area_of_rectangle.py", line 34, in area_of_rectangle
    area = height * width
TypeError: can't multiply sequence by non-int of type 'str'

Oops, we definitely have some bugs to fix.

Now, let's try running the script through the Python debugger:

$ python3 -m pdb area_of_rectangle.py 3 6

You will see output like:

> /home/jamie/Dropbox/projects/python-debugging/area_of_rectangle.py(3)<module>()
-> "A script for calculating the area of a rectangle."
(Pdb) 

You are now inside the script, inside the Python debugger. The first pdb you should now is h or help. Type h and hit enter:

(Pdb) h

Documented commands (type help <topic>):
========================================
EOF    c          d        h         list      q        rv       undisplay
a      cl         debug    help      ll        quit     s        unt      
alias  clear      disable  ignore    longlist  r        source   until    
args   commands   display  interact  n         restart  step     up       
b      condition  down     j         next      return   tbreak   w        
break  cont       enable   jump      p         retval   u        whatis   
bt     continue   exit     l         pp        run      unalias  where    

Miscellaneous help topics:
==========================
exec  pdb

This shows you all of the pdb commands. You can get help for any of them typing them after h. For example:

(Pdb) h l
l(ist) [first [,last] | .]

        List source code for the current file.  Without arguments,
        list 11 lines around the current line or continue the previous
        listing.  With . as argument, list 11 lines around the current
        line.  With one argument, list 11 lines starting at that line.
        With two arguments, list the given range; if the second
        argument is less than the first, it is a count.

        The current line in the current frame is indicated by "->".
        If an exception is being debugged, the line where the
        exception was originally raised or propagated is indicated by
        ">>", if it differs from the current line.

The l(ist) command is very helpful for seeing where you are in the script. Try it:

(Pdb) l
  1  	#! /usr/bin/env python3
  2  	
  3  ->	"A script for calculating the area of a rectangle."
  4  	
  5  	import sys
  6  	
  7  	
  8  	def area_of_rectangle(height, width = None):
  9  	    """
 10  	    Returns the area of a rectangle.
 11  	

The -> shows us that we are at the first line of code in the file, which is the docstring for the file.

Two useful commands to continue execution through the script are n(ext) and s(tep). Both will execute the next line of code. They differ in what they do when that line of code calls a function. s(tep) will "step into" the function, whereas n(ext) will simply call the function and advance to the next line of code in the current context.

Let's use n(ext) to work our way through some of the script. Type n 5 times and take note of how it is advancing through the script:

(Pdb) n
> /home/jamie/Dropbox/projects/python-debugging/area_of_rectangle.py(5)<module>()
-> import sys
(Pdb) n
> /home/jamie/Dropbox/projects/python-debugging/area_of_rectangle.py(8)<module>()
-> def area_of_rectangle(height, width = None):
(Pdb) n
> /home/jamie/Dropbox/projects/python-debugging/area_of_rectangle.py(37)<module>()
-> if __name__ == '__main__':
(Pdb) n
> /home/jamie/Dropbox/projects/python-debugging/area_of_rectangle.py(38)<module>()
-> if (len(sys.argv) < 2) or (len(sys.argv) > 3):
(Pdb) n
> /home/jamie/Dropbox/projects/python-debugging/area_of_rectangle.py(44)<module>()
-> height = sys.argv[1]

We are now on the height = sys.argv[1] line. Use l to confirm this:

(Pdb) l
 39  	        message = (
 40  	                "{script_name}: Expecting one or two command-line arguments:\n"
 41  	                "\tthe height of a square or the height and width of a "
 42  	                "rectangle".format(script_name = sys.argv[0]))
 43  	        sys.exit(message)
 44  ->	    height = sys.argv[1]
 45  	    width = height
 46  	    if len(sys.argv) > 3:
 47  	        width = sys.argv[1]
 48  	
 49  	    area = area_of_rectangle(height, width)

Use n one more time to define the height variable:

(Pdb) n
> /home/jamie/Dropbox/projects/python-debugging/area_of_rectangle.py(45)<module>()
-> width = height

Now, you can use the p command to print the value of height:

(Pdb) p height
'3'

If you try to print the value of width you will get an error, because it's not defined yet:

(Pdb) p width
*** NameError: name 'width' is not defined

If you use l you will see that you are currently on the line that defines width:

(Pdb) l
 40  	                "{script_name}: Expecting one or two command-line arguments:\n"
 41  	                "\tthe height of a square or the height and width of a "
 42  	                "rectangle".format(script_name = sys.argv[0]))
 43  	        sys.exit(message)
 44  	    height = sys.argv[1]
 45  ->	    width = height
 46  	    if len(sys.argv) > 3:
 47  	        width = sys.argv[1]
 48  	
 49  	    area = area_of_rectangle(height, width)
 50  	

Go ahead and run the next line with n and then try printing width again:

(Pdb) n
> /home/jamie/Dropbox/projects/python-debugging/area_of_rectangle.py(46)<module>()
-> if len(sys.argv) > 3:
(Pdb) p width
'3'

You can also use Python code within the debugger. Let's do that to check the type of height and width:

(Pdb) type(height)
<class 'str'>
(Pdb) type(width)
<class 'str'>

Note, you can also change variables dynamically within the debugger. For example:

(Pdb) height = int(height)
(Pdb) p height
3
(Pdb) type(height)
<class 'int'>

Whenever you want to exit the debugger, simply use the q(uit) command.

Using breakpoints

Rather than run the entire script through the debugger, we can add a single line of code to drop us into the debugger at any place in our code.

Open the area_of_rectangle.py script with your text editor and change the code in the area_of_rectangle function from:

    if width:
        width = height
    area = height * width
    return area

To:

    if width:
        width = height
    import pdb; pdb.set_trace()
    area = height * width
    return area

We simply added import pdb; pdb.set_trace() just before we calculate the area of the rectangle.

Now, you can run the script as you normally would:

$ python3 area_of_rectangle.py 3 6

(Notice, we did not have to invoke the pdb module like above; that is done by pdb.set_trace()) Notice that you get dropped into the pdb debugger:

> /home/jamie/Dropbox/projects/python-debugging/area_of_rectangle.py(35)area_of_rectangle()
-> area = height * width
(Pdb)

Now we can use l to see where we are:

(Pdb) l
 30  	    14
 31  	    """
 32  	    if width:
 33  	        width = height
 34  	    import pdb; pdb.set_trace()
 35  ->	    area = height * width
 36  	    return area
 37  	
 38  	if __name__ == '__main__':
 39  	    if (len(sys.argv) < 2) or (len(sys.argv) > 3):
 40  	        message = (

We are at the line immediately after our pdb.set_trace() call. Now, we can use the debugger to inspect variables and continue to execute the script, just like we learned above. For example, use p and type to inspect the variables height and width:

(Pdb) p height
'3'
(Pdb) p width
'3'
(Pdb) type(height)
<class 'str'>
(Pdb) type(width)
<class 'str'>

The Exercise

Now that you know the basics of the Python debugger, use it to debug the area_of_rectangle.py script.

Acknowledgments

Support

This work was made possible by funding provided to Jamie Oaks from the National Science Foundation (DEB 1656004).

License

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.

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Learning to use the Python debugger.

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