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How To Debug Python with an Interactive Console

Updated on August 20, 2021
How To Debug Python with an Interactive Console

Introduction

Debugging is a part of the software development process where programmers look for and then resolve issues that prevent the software from running correctly.

A useful and quick tool for debugging is the Python code module because it can be used to emulate the interactive interpreter. The module also provides the opportunity for you to experiment with code that you write in Python.

Prerequisites

You should have Python 3 installed and a programming environment set up on your computer or server. If you don’t have a programming environment set up, you can refer to the installation and setup guides for a local programming environment or for a programming environment on your server appropriate for your operating system (Ubuntu, CentOS, Debian, etc.)

Understanding the code Module

Rather than step through code with a debugger, you can add the code module to your Python program to instruct the program to stop execution and enter into the interactive mode in order to examine how your code is working. The code module is part of the Python standard library.

This is useful because you are able to leverage an interpreter without sacrificing the complexity and permanence that programming files can provide. Through using the code module you can avoid using print() statements throughout your code as a form of debugging, which can become unwieldy over time.

To make use of the module as a method for debugging, you can use the interact() function of the module, which stops execution of the program at the point at which it is called, and provides you with an interactive console so that you can examine the current state of your program.

Info: To follow along with the example code in this tutorial, open a Python interactive shell on your local system by running the python3 command. Then you can copy, paste, or edit the examples by adding them after the >>> prompt.

The function with its possible parameters are as follows:

code.interact(banner=None, readfunc=None, local=None, exitmsg=None)

This function runs a read-eval-print loop, and creates an object instance of the InteractiveConsole class, which emulates the behavior of the interactive Python interpreter.

The optional parameters are as follows:

  • banner can be set to a string, so that you can flag where the interpreter launches
  • readfunc can be used as the InteractiveConsole.raw_input() method
  • local will set the default namespace for the interpreter loop
  • exitmsg can be set to a string to note where the interpreter ends

With the local parameter, you can use, for example:

  • local=locals() for a local namespace
  • local=globals() for a global namespace
  • local=dict(globals(), **locals()) to use both the global namespace and the present local namespace

Note that the exitmsg parameter is new for Python 3.6, so if you are using an older version of Python, update it or leave off the exitmsg parameter.

You can place the interact() function wherever you would like in your program to launch the interactive interpreter in the code.

Working with the code Module

Let’s look at this in the context of a bank account balances program called balances.py. We’ll set the local parameter to locals() to set the namespace to local.

balances.py
# Import code module
import code

bal_a = 2324
bal_b = 0
bal_c = 409
bal_d = -2

account_balances = [bal_a, bal_b, bal_c, bal_d]


def display_bal():
    for balance in account_balances:
        if balance < 0:
            print("Account balance of {} is below 0; add funds now."
                  .format(balance))

        elif balance == 0:
            print("Account balance of {} is equal to 0; add funds soon."
                  .format(balance))

        else:
            print("Account balance of {} is above 0.".format(balance))

# Use interact() function to start the interpreter with local namespace
code.interact(local=locals())

display_bal()

We used the function code.interact() with the local=locals() parameter to use the local namespace as the default within the interpreter loop.

Let’s run the program above, using the python3 command if we’re not in a virtual environment, or the python command if we are:

  1. python balances.py

Once we run the program, we’ll receive the following output initially:

Python 3.5.2 (default, Nov 17 2016, 17:05:23) 
[GCC 5.4.0 20160609] on linux
Type "help", "copyright", "credits" or "license" for more information.
(InteractiveConsole)
>>> 

Your cursor will be placed at the end of the >>> line, just like it would be in the Python interactive shell.

From here, you can issue calls to print variables, functions, etc.:

>>> print(bal_c)
409
>>> print(account_balances)
[2324, 0, 409, -2]
>>> print(display_bal())
Account balance of 2324 is 0 or above.
Account balance of 0 is equal to 0, add funds soon.
Account balance of 409 is 0 or above.
Account balance of -2 is below 0, add funds now.
None
>>> print(display_bal)
<function display_bal at 0x104b80f28>
>>> 

We see that, by using the local namespace, we are able to print the variables and invoke the function. The final print() call shows the location of the function display_bal within computer memory.

Once you are satisfied with what you have been able to examine from working with the interpreter, you can press CTRL + D for *nix-based systems, or CTRL + Z for Windows-based systems to leave the console and continue with the execution of the program.

If you would like to leave the console without running the remainder of the program, you can do so by typing quit() and the program will be aborted.

To leverage the banner and exitmsg parameters, we can do so as follows:

balances.py
...
# Use interact() function to start the interpreter
code.interact(banner="Start", local=locals(), exitmsg="End")

display_bal()

When we run the program, we’ll receive the following output when we run the program:

Start
>>> 

Using the banner parameter can allow you to set multiple points within your code and give you the ability to identify them. For example, you can have a banner that prints "In [for-loop](https://www.digitalocean.com/community/tutorials/how-to-construct-for-loops-in-python-3)" with an exitmsg that prints "Out of for-loop", so you can tell exactly where you are in the code.

From here, we can use the interpreter as usual. Once we type CTRL + D to exit the interpreter, we’ll receive the exit message and the function will run:

End
Account balance of 2324 is 0 or above.
Account balance of 0 is equal to 0, add funds soon.
Account balance of 409 is 0 or above.
Account balance of -2 is below 0, add funds now.

The program has now fully run following the interactive session.

Once you are done using the code module to debug your code, you should remove the code functions and import statement so that your program will run as usual. The code module provides a utility, so once you are done it is important to clean up after yourself.

Conclusion

Using the code module to launch an interactive console can allow you to look at what the code is doing on a granular level to understand its behavior and make changes as needed. To read more about it, you can read the official documentation of the code module.

To learn more about other methods you can use to debug your Python code, read our tutorial on how to use the Python debugger pdb, and our tutorial on how to use logging.

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Tutorial Series: Debugging Python Programs

Debugging is a part of the software development process where programmers look for and then resolve issues that prevent the software from running correctly or as expected. This series will explore different methods for debugging Python programs, including how to use the Python Debugger, how to work with the code module for debugging on an interactive console, and how to use logging to debug.

Tutorial Series: How To Code in Python

Python banner image

Introduction

Python is a flexible and versatile programming language that can be leveraged for many use cases, with strengths in scripting, automation, data analysis, machine learning, and back-end development. It is a great tool for both new learners and experienced developers alike.

Prerequisites

You should have Python 3 installed and a programming environment set up on your computer or server. If you don’t have a programming environment set up, you can refer to the installation and setup guides for a local programming environment or for a programming environment on your server appropriate for your operating system (Ubuntu, CentOS, Debian, etc.)

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