The usual testing frameworks you can find for Python are so-called unit-testing-frameworks. As this collides with some goals of integration testing this framework was built.
- First release, supports Python >= 3.3
- Backport to work on Python 2.7
- If you want to use Python 3 use at least 3.3
- Bugfix: Python 2 issue (Re #4)
- Ignore Test Base classes (Thanks withrocks: https://github.com/withrocks)
- Testrunner.run() now returns stats (Thanks nooploop: https://github.com/nooploop)
In unit testing you should only test the smallest possible thing in your application (or library) and all test should be independent and the ordering of tests is not of particular interest. To make that possible it is very common to stub or mock data models or other external dependencies and only test the functionality of your data transforms. You define fixtures and setup and teardown functions to prepare the environment for a unit test and destroy that environment immediately after running the test.
Integration testing tests the complete system and has no direct influence on the data in the system so naturally the ordering of tests matter and tests may have dependencies (one test creates a DB record which another one modifies, etc.)
As you should test one thing in an unit-test only, you should only use a single assert in a unit test. The default behaviour of most assert methods in unit-testing-frameworks is to raise an exception. This means everything after the failed assert is skipped and the test is marked as failed. In integration-testing you probably want to check multiple things at once and get a detailed error report which checks failed exactly.
- You have full control over which tests run in what order (if you want)
- You can mark tests as dependent on others, so they will be skipped when a dependency fails
- You can log as many errors as you want in a single test. Every error saves a stack trace and the error message for further debugging
- The test runner is very flexible (Your python files that contain the tests do not need to be in python modules)
Install:
pip install integrate
Write a test case class:
from integrate import TestCase, test class Test(TestCase): "Simple test case" @test(skip_if_failed=["other_test"]) def simple_test(self, check): check.equal(1,2) @test() def other_test(self, check): "Always failing test" check.fail("Always fails")
Write a test-runner (we assume you put the test case into
tests/test.py
):#!/usr/bin/env python from integrate import TestRunner TestRunner(dirs=["tests"], pattern="*.py").run()
Make it executable and run it (or run with
python testrunner.py
):chmod a+x testrunner.py ./testrunner.py
All tests have to be in a class that is derived from TestCase
, you may put anything in that class that you want, functions that should be called by the test runner have to be decorated with @test()
.
The TestCase
class is the workhorse of the integrate framework. It has some functions you may override in a subclass in addition to adding test functions:
def setup_all(self):
This function is run at the beginning of the test case class before any test is starteddef teardown_all(self):
This function is run at the end of the test case class after all tests have finisheddef setup_test(self):
This function is run before each test in the test casedef teardown_test(self):
This function is run after each test in the test case
You can run the test case class by it's own by calling YourTestCase().run()
or rely on the test runner
There are some interesting initialization parameters:
verbosity
, how verbose the test output should be (min: 0, max: 2, default: 2)checker
, whichCheck
subclass to use, usually you will use the defaultCheck
class, but you may extend that to add methods to thecheck
object all tests receive
All functions that should be picked up by the TestCase
class have to be decorated with @test()
(notice the parentheses!), the decorator has some optional parameters:
skip
boolean, defaults toFalse
, set toTrue
to skip a testskip_if_failed
list of strings, names of test functions that have to succeed (not fail or be skipped) in order for this function to run, defaults to an empty listdepends
list of strings, names of test functions that should be run before this function, defaults to an empty listexpect_fail
boolean, set to true if you expect this test to fail (just for logging purposes)
The test functions have 2 parameters: self
and check
, for the description of check
read on.
All errors that surface in a test should be found and logged by an instance of the Check
class. You may subclass this class to add additional checker functions and insert it into the TestCase
or TestRunner
initializer.
The assertion API looks like the following, if there is a message
parameter it usually is optional and may be left out. User messages are prepended to an error message:
equal(a, b, message=None)
Check if two values are equalnot_equal(a, b, message=None)
Check if two values are not equalis_none(a, message=None)
Check if a value is Noneis_not_none(a, message=None)
Check if a value is not Noneis_true(a, message=None)
Check if a value is Trueis_false(a, message=None)
Check if a value is Falsefail(message)
Just log an error messageraises(exception_type, function, *args, **kwargs)
Check if a function raises a specified exception type, args and kwargs are forwarded to the functiondoes_not_raise(function, *args, **kwargs)
Check if a function does not raise an exception, args and kwargs are forwarded to the function
All check functions should return True
if the check succeeded and False
if it failed if they don't have to return any other result (like the raises
and does_not_raise
functions which return the result of the function or None
)
Exceptions in test functions will still cancel the test function and log the exception to the error log if you don't wrap it with a raises()
call. The traceback of an exception caught by the toplevel will be not of much use though if you can't pinpoint the location based on the exception type. If you just want to catch all exceptions use check.raises(Exception, myFunc, "myParam")
For extending the Check
class there is a, rather small, extension API:
log_error(error, message, detail=None, strip=4)
Use this function to add an error to the list, a corresponding stack trace is appended automatically. Theerror
parameter is a textual one line description of the error, themessage
parameter is a user message. Use thedetail
parameter to give a detailed error description if needed. Only modify thestrip
parameter if your stacktrace gets entries after the error location in the test, by default it strips the last 4 stack frames as these are in the testing framework and just clobber the stack traces.error_message()
Use this for debugging, this function joins all error messages into one string
The TestRunner
class is the entry point for automatically discovering tests in a project and running them. It has some initialization parameters:
verbosity
verbosity of test output (min: 0, max: 2, default: 2)dirs
list of directories to scan for tests, defaults to current directory. Directories are scanned recursively.pattern
file name pattern to search (argument tofnmatch
) defaults to the python best practice*_test.py
checker
theCheck
subclass to send to the tests, if you have subclassed theCheck
class put your class here, defaults to the unmodifiedCheck
class
To start the tests instanciate the test runner and call the run()
function:
from integrate import TestRunner TestRunner().run()
If you want to run just some tests of your test suite you may either run the tests directly by calling run()
on the TestCase
subclass or by supplying a filter to the run()
function of the test runner like so:
TestRunner().run(only='special.')
This example would only run tests which have a module name that starts with special.
the module names are generated by replacing all slashes of the python file path with a dot and removing the .py
extension.
A test file that is stored in the path special/tests/runme.py
will get a module name of special.tests.runme
.
If you only want to look at what the Test runner would actually do use the plan()
function, this just displays a list of test that would be executed and the order of execution instead of really running the tests. It has the same parameters as the run()
function.