Unit tests 
============

**Writing simple unit tests**

As all good developers know, automated tests are very important! 
If you are not comfortable with automated testing and test-driven
development, you should read the `Plone testing tutorial`_.
In this section, we will assume you are familiar with Plone testing basics,
and show some tests that are particularly relevant to our example types.

Firstly, we will add a few unit tests.
Recall that unit tests are simple tests for a particular function or method,
and do not depend on an outside environment being set up.
As a rule of thumb, if something can be tested with a simple unit test, do
so, because:

- Unit tests are quick to write.
- They are also quick to run.
- Because they are more isolated, you are less likely to have tests
  that pass or fail due to incorrect assumptions or by luck.
- You can usually test things more thoroughly and exhaustively with
  unit tests than with (slower) integration tests.

You’ll typically supplement a larger number of unit tests with a smaller
number of integration tests, to ensure that your application’s correctly
wired up and working.

That’s the theory, at least. When we’re writing content types, we’re
often more interested in integration test, because a type schema and FTI
are more like configuration of the Plone and Dexterity frameworks than
imperative programming.
We can’t “unit test” the type’s schema interface, but we can and should test
that the correct schema is picked up and used when our type is installed.
We will often write unit tests (with mock objects, where required) for
custom event handlers, default value calculation functions and other
procedural code.

In that spirit, let’s write some unit tests for the default value
handler and the invariant in ``program.py``. 
We’ll add the directory ``tests``, with an ``__init__.py`` and a file
``test_program.py`` that looks like this::

    import unittest
    import datetime

    from example.conference.program import startDefaultValue
    from example.conference.program import endDefaultValue
    from example.conference.program import IProgram
    from example.conference.program import StartBeforeEnd

    class MockProgram(object):
        pass

    class TestProgramUnit(unittest.TestCase):
        """Unit test for the Program type
        """
        
        def test_start_defaults(self):
            data = MockProgram()
            default_value = startDefaultValue(data)
            today = datetime.datetime.today()
            delta = default_value - today
            self.assertEquals(6, delta.days)

        def test_end_default(self):
            data = MockProgram()
            default_value = endDefaultValue(data)
            today = datetime.datetime.today()
            delta = default_value - today
            self.assertEquals(9, delta.days)
        
        def test_validate_invariants_ok(self):
            data = MockProgram()
            data.start = datetime.datetime(2009, 1, 1)
            data.end = datetime.datetime(2009, 1, 2)
            
            try:
                IProgram.validateInvariants(data)
            except:
                self.fail()
        
        def test_validate_invariants_fail(self):
            data = MockProgram()
            data.start = datetime.datetime(2009, 1, 2)
            data.end = datetime.datetime(2009, 1, 1)
            
            try:
                IProgram.validateInvariants(data)
                self.fail()
            except StartBeforeEnd:
                pass
        
        def test_validate_invariants_edge(self):
            data = MockProgram()
            data.start = datetime.datetime(2009, 1, 2)
            data.end = datetime.datetime(2009, 1, 2)
            
            try:
                IProgram.validateInvariants(data)
            except:
                self.fail()

    def test_suite():
        return unittest.defaultTestLoader.loadTestsFromName(__name__)

This is a simple test using the Python standard library’s ``unittest``
module. There are a few things to note here:

- We have created a dummy class to simulate a ``Program`` instance. 
  It doesn’t contain anything at all, but we set some attributes onto it
  for certain tests.
  This is a very simple way to do mocks.
  There are much more sophisticated mock testing approaches, but starting
  simple is good.
- Each test is self contained.
  There is no test layer or test case setup/tear-down.
- We use the ``defaultTestLoader`` to load all test classes in the module
  automatically.
  The test runner will look for modules in the ``tests``
  package with names starting with ``test`` that have a ``test_suite()``
  method to get test suites.

To run the tests, we can do:

.. code-block:: console

    $ ./bin/text example.conference

Hopefully it should show five passing tests.

.. note::

    This uses the testrunner configured via the ``[test]`` part in our
    ``buildout.cfg``.
    This provides better test reporting and a few more advanced options
    (like output colouring).
    We could also use the built-in test runner in the ``instance`` script,
    e.g. with ``./bin/instance test -s example.conference``.

To run just this test suite, we can do:

.. code-block:: console

    $ ./bin/test example.conference -t TestProgramUnit

This is useful when we have other test suites that we don’t want to run,
e.g. because they are integration tests and require lengthy setup.

To get a report about test coverage, we can run:

.. code-block:: console

    $ ./bin/test example.conference --coverage

Test coverage reporting is important. If you have a module with low test
coverage, it means that your tests do not cover many of the code paths
in those modules, and so are less useful for detecting bugs or guarding
against future problems. Aim for 100%.

.. _Plone testing tutorial: ../../../../../../documentation/tutorial/testing
