106

I have a Jupyter notebook that I plan to run repeatedly. It has functions in it, the structure of the code is this:

def construct_url(data):
    ...
    return url

def scrape_url(url):
    ... # fetch url, extract data
    return parsed_data

for i in mylist: 
    url = construct_url(i)
    data = scrape_url(url)
    ... # use the data to do analysis

I'd like to write tests for construct_url and scrape_url. What's the most sensible way to do this?

Some approaches I've considered:

  • Move the functions out into a utility file, and write tests for that utility file in some standard Python testing library. Possibly the best option, though it means that not all of the code is visible in the notebook.
  • Write asserts within the notebook itself, using test data (adds noise to the notebook).
  • Use specialised Jupyter testing to test the content of the cells (don't think this works, because the content of the cells is going to change).
3
  • 2
    Care to report back? I'm currently refactoring some old notebooks and using both your first and second strategies for different purposes. The notebooks share certain utility functions, which I've moved out to utils.py. This script also contains the unit tests for the functions, as you suggest. The notebooks tackle a series of rather unpleasant data wrangling and cleaning tasks. Where I originally used debugging messages to observe the result of a specific transformation of the data, I now have assertions that verify that the data set meets certain expectations at various stages.
    – eenblam
    Nov 28, 2016 at 20:07
  • Very interested in this as well...
    – Dovy
    Jan 17, 2017 at 14:43
  • This might be very useful for testing notebooks in general: github.com/opengeophysics/testipynb
    – krassowski
    Dec 24, 2018 at 11:43

10 Answers 10

132

Python standard testing tools, such as doctest and unittest, can be used directly in a notebook.

Doctest

A notebook cell with a function and a test case in a docstring:

def add(a, b):
    '''
    This is a test:
    >>> add(2, 2)
    5
    '''
    return a + b

A notebook cell (the last one in the notebook) that runs all test cases in the docstrings:

import doctest
doctest.testmod(verbose=True)

Output:

Trying:
    add(2, 2)
Expecting:
    5
**********************************************************************
File "__main__", line 4, in __main__.add
Failed example:
    add(2, 2)
Expected:
    5
Got:
    4
1 items had no tests:
    __main__
**********************************************************************
1 items had failures:
   1 of   1 in __main__.add
1 tests in 2 items.
0 passed and 1 failed.
***Test Failed*** 1 failures.

Unittest

A notebook cell with a function:

def add(a, b):
    return a + b

A notebook cell (the last one in the notebook) that contains a test case. The last line in the cell runs the test case when the cell is executed:

import unittest

class TestNotebook(unittest.TestCase):
    
    def test_add(self):
        self.assertEqual(add(2, 2), 5)
        

unittest.main(argv=[''], verbosity=2, exit=False)

Output:

test_add (__main__.TestNotebook) ... FAIL

======================================================================
FAIL: test_add (__main__.TestNotebook)
----------------------------------------------------------------------
Traceback (most recent call last):
  File "<ipython-input-15-4409ad9ffaea>", line 6, in test_add
    self.assertEqual(add(2, 2), 5)
AssertionError: 4 != 5

----------------------------------------------------------------------
Ran 1 test in 0.001s

FAILED (failures=1)

Debugging a Failed Test

While debugging a failed test, it is often useful to halt the test case execution at some point and run a debugger. For this, insert the following code just before the line at which you want the execution to halt:

import pdb; pdb.set_trace()

For example:

def add(a, b):
    '''
    This is the test:
    >>> add(2, 2)
    5
    '''
    import pdb; pdb.set_trace()
    return a + b

For this example, the next time you run the doctest, the execution will halt just before the return statement and the Python debugger (pdb) will start. You will get a pdb prompt directly in the notebook, which will allow you to inspect the values of a and b, step over lines, etc.

Note: Starting with Python 3.7, the built-in breakpoint() can be used instead of import pdb; pdb.set_trace().

I created a Jupyter notebook for experimenting with the techniques I have just described. You can try it out with Binder

7
  • 1
    I really like the unittest solution. Does anyone know how to change the background color to green when passing? Right now the background color is light pink (#fdd) from the CSS class div.output_stderr which comes from localhost:8888/Users/lresende/opensource/jupyter/… Oct 20, 2019 at 19:07
  • 1
    @DavidBeckwith The background is light pink because the output is written to standard error. The default test runner (TextTestRunner) always writes its output to standard error (independently of the test results). I did not find a parameter to separately change the streams based on the test outcome. It is certainly possible to extend the TextTestRunner to do this, but even if the output will be written to the standard output (instead of standard error) it will have a white background. This is simply how Jupyter displays it. Oct 21, 2019 at 10:59
  • 1
    If your test failed, you can also use import pdb; pdb.pm() to go back were it crashed, post mortem, and debug it. Feb 24, 2020 at 12:23
  • @HenriqueMendonça That didn't work for me. I commented out the unittest and after the doctest failed I opened a new cell and ran import pdb; pdb.pm() in it. I got AttributeError: module 'sys' has no attribute 'last_traceback' (I used the binder link, Python 3.7.3) Mar 14, 2020 at 11:01
  • @SergiyKolesnikov you have to run pdb.pm() right after the exception/assert happened. Without changing your code (apart from this new cell) or restarting the kernel and losing the context... Be careful to not misspell anything, or you'll generate a new exception and lose the former one that you actually want to debug ;) Mar 15, 2020 at 14:35
23

I'm the author and maintainer of testbook (a project under nteract). It is a unit testing framework for testing code in Jupyter Notebooks.

testbook addresses all the three approaches that you've mentioned since it allows for testing Jupyter Notebooks as .py files.

Here is an example of a unit test written using testbook

Consider the following code cell in a Jupyter Notebook:

def func(a, b):
    return a + b

You would write a unit test using testbook in a Python file as follows:

import testbook


@testbook.testbook('/path/to/notebook.ipynb', execute=True)
def test_func(tb):
    func = tb.ref("func")

    assert func(1, 2) == 3

Let us know if testbook helps your use case! If not, please feel free to raise an issue on GitHub :)


Features of testbook

  • Write conventional unit tests for Jupyter Notebooks
  • Execute all or some specific cells before unit test
  • Share kernel context across multiple tests (using pytest fixtures)
  • Inject code into Jupyter notebooks
  • Works with any unit testing library - unittest, pytest or nose

Links

PyPI GitHub Docs

3
6

In my opinion the best way to have a Unit tests in Jupyter notebook is the following package: https://github.com/JoaoFelipe/ipython-unittest

example from the package docs:

%%unittest_testcase
def test_1_plus_1_equals_2(self):
    sum = 1 + 1
    self.assertEqual(sum, 2)

def test_2_plus_2_equals_4(self):
    self.assertEqual(2 + 2, 4)

Success
..
----------------------------------------------------------------------
Ran 2 tests in 0.000s

OK
6

Running a single test case:

from unittest import TestCase, TextTestRunner, defaultTestLoader
class MyTestCase(TestCase):
    def test_something(self):
        self.assertTrue(True)
TextTestRunner().run(defaultTestLoader.loadTestsFromTestCase(MyTestCase))
3

After researching a bit, I reached my own solution where I have my own testing code looks like this

def red(text):
    print('\x1b[31m{}\x1b[0m'.format(text))

def assertEquals(a, b):
    res = a == b
    if type(res) is bool:
        if not res:
            red('"{}" is not "{}"'.format(a, b))
            return
    else:
        if not res.all():
            red('"{}" is not "{}"'.format(a, b))
            return

    print('Assert okay.')

What it does is

  • Check if a equals b.
  • If they are different it shows the arguments in red.
  • If they are the same it says 'okay'.
  • If the result of the comparison is an array it checks if all() is true.

I put the function on top of my notebook and I test something like this

def add(a, b):
    return a + b

assertEquals(add(1, 2), 3)
assertEquals(add(1, 2), 2)
assertEquals([add(1, 2), add(2, 2)], [3, 4])

---

Assert okay.
"3" is not "2"  # This is shown in red.
Assert okay.

Pros of this approach are

  • I can test cell by cell and see the result as soon as I change something of a function.
  • I don't need to add extra code something like doctest.testmod(verbose=True) that I have to add if I use doctest.
  • Error messages are simple.
  • I can customize my testing (assert) code.
2

Context

Since I did not find an answer that I managed to get working with all the unit tests in a child/sub folder, and taking into account:

Write asserts within the notebook itself, using test data (adds noise to the notebook).

This is an example to run unit tests that are stored in a child/sub folder from the jupyter notebook.

File structure

  • some_folder/your_notebook.ipynb
  • some_folder/unit_test_folder/some_unit_test.py

Unit Test file content

This would be the context of the some_unit_test.py file:

# Python code to unittest the methods and agents
import unittest 
import os

import nbimporter
import your_notebook as eg

class TestAgent(unittest.TestCase): 

    def setUp(self): 
        print("Initialised unit test")

    # Unit test test two functions on a single line
    def test_nodal_precession(self):
        expected_state = 4
        returned_state = eg.add(2,2)
        self.assertEquals(expected_state,returned_state)

if __name__ == '__main__':
    main = TestAgent()

    # This executes the unit test/(itself)
    import sys
    suite = unittest.TestLoader().loadTestsFromTestCase(TestAgent)
    unittest.TextTestRunner(verbosity=4,stream=sys.stderr).run(suite)

Jupyter Notebook file content

This would be the cell that calls and executes the unit test:

# Some function that you want to do
def add(a, b):
    return a + b

!python "unit_test_folder/some_unite_test.py"
print("completed unit test inside the notebook")

Run Unit Tests

To run the unit tests, you can either just execute the cell, and then the result of the unit test is printed below the cell of the Jupyter Notebook. Or you can browse to /some_folder with anaconda and run command: python unit_test_folder/some_unit_test.py, to run the command without opening the notebook (manually).

2

In case you want to test a class, you'll have to reinit a method of unittest.

import unittest

class recom():
    def __init__(self):
        self.x = 1
        self.y = 2

class testRecom(unittest.TestCase):

    def setUp(self):
        self.inst = recom()

    def test_case1(self):
        self.assertTrue(self.inst.x == 1) 

    def test_case2(self):
        self.assertTrue(self.inst.y == 1) 

unittest.main(argv=[''], verbosity=2, exit=False)
    

and it will produce the following output:

test_case1 (__main__.testRecom) ... ok
test_case2 (__main__.testRecom) ... FAIL

======================================================================
FAIL: test_case2 (__main__.testRecom)
----------------------------------------------------------------------
Traceback (most recent call last):
  File "<ipython-input-332-349860e645f6>", line 15, in test_case2
    self.assertTrue(self.inst.y == 1)
AssertionError: False is not true

----------------------------------------------------------------------
Ran 2 tests in 0.003s

FAILED (failures=1)
1

If you use the nbval or pytest-notebook plugins for pytest you can check that cell outputs don't change when re-run.

Options include config via a file as well as cell comments (e.g. mark cells to skip)

0

Given your context, it's best to write doctests for construct_url & scrape_url inside of notebook cells like this,

def construct_url(data):
    '''
    >>> data = fetch_test_data_from_somewhere()
    >>> construct_url(data)
    'http://some-constructed-url/'
    '''

    ... 
    <actual function>
    ...

Then you can execute them with another cell at the bottom:

import doctest
doctest.testmod(verbose=True)

I also built treon, a test library for Jupyter Notebooks that can be used to execute doctests & unittests in notebooks. It can also execute notebooks top to bottom in a fresh kernel & report any execution errors (sanity testing).

0

Here is an example I learned in school. This is assuming you've created a function called "AnagramTest" It looks like the following:

    from nose.tools import assert_equal

    class AnagramTest(object):

    def test(self,func):
        assert_equal(func('dog dog dog','gggdddooo'),True)
        assert_equal(func('xyz','zyx'),True)
        assert_equal(func('0123','1 298'),False)
        assert_equal(func('xxyyzz','xxyyz'),False)
        print("ALL TEST CASES PASSED")

# Run Tests
t = AnagramTest()
t.test(anagram)
1
  • 2
    Hello! While this code may solve the question, including an explanation of how and why this solves the problem would really help to improve the quality of your post, and probably result in more up-votes. Remember that you are answering the question for readers in the future, not just the person asking now. Please edit your answer to add explanations and give an indication of what limitations and assumptions apply. Apr 21, 2020 at 0:35

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