README.rst - third_party/github.com/wolever/parameterized - Git at Google

 ``nose-parameterized`` is a decorator for parameterized testing with ``nose``
 =============================================================================

 *Now with 100% less Python 3 incompatibility!*

 Nose. It's got test generators. But they kind of suck:

     * They often require a second function
     * They make it difficult to separate the data from the test
     * They don't work with subclases of ``unittest.TestCase``
     * ``kwargs``? What ``kwargs``?

 But ``nose-parameterized`` fixes that:

 .. code:: python

     # test_math.py
     from nose.tools import assert_equal
     from nose_parameterized import parameterized

     import unittest
     import math

     @parameterized([
         (2, 2, 4),
         (2, 3, 8),
         (1, 9, 1),
         (0, 9, 0),
     ])
     def test_pow(base, exponent, expected):
         assert_equal(math.pow(base, exponent), expected)

     class TestMathUnitTest(unittest.TestCase):
         @parameterized.expand([
             ("negative", -1.5, -2.0),
             ("integer", 1, 1.0),
             ("large fraction", 1.6, 1),
         ])
         def test_floor(self, name, input, expected):
             assert_equal(math.floor(input), expected)

 ::

     $ nosetests -v test_math.py
     test_math.test_pow(2, 2, 4) ... ok
     test_math.test_pow(2, 3, 8) ... ok
     test_math.test_pow(1, 9, 1) ... ok
     test_math.test_pow(0, 9, 0) ... ok
     test_floor_0_negative (test_math.TestMathUnitTest) ... ok
     test_floor_1_integer (test_math.TestMathUnitTest) ... ok
     test_floor_2_large_fraction (test_math.TestMathUnitTest) ... ok

     ----------------------------------------------------------------------
     Ran 7 tests in 0.002s

     OK


 Exhaustive Usage Examples
 --------------------------

 The ``@parameterized`` and ``@parameterized.expand`` decorators accept a list
 or iterable of tuples or ``param(...)``, or a callable which returns a list or
 iterable:

 .. code:: python

     from nose_parameterized import parameterized, param

     # A list of tuples
     @parameterized([
         (2, 3, 5),
         (3, 5, 8),
     ])
     def test_add(a, b, expected):
         assert_equal(a + b, expected)

     # A list of params
     @parameterized([
         param("10", 10),
         param("10", 16, base=16),
     ])
     def test_int(str_val, expected, base=10):
         assert_equal(int(str_val, base=base), expected)

     # An iterable of params
     @parameterized(
         param.explicit(*json.loads(line))
         for line in open("testcases.jsons")
     )
     def test_from_json_file(...):
         ...

     # A callable which returns a list of tuples
     def load_test_cases():
         return [
             ("test1", ),
             ("test2", ),
         ]
     @parameterized(load_test_cases)
     def test_from_function(name):
         ...

 .. **

 Note that, when using an iterator or a generator, Nose will read every item
 into memory before running any tests (as it first finds and loads every test in
 each test file, then executes all of them at once).

 The ``@parameterized`` decorator can be used test class methods, and standalone
 functions:

 .. code:: python

     from nose_parameterized import parameterized

     class AddTest(object):
         @parameterized([
             (2, 3, 5),
         ])
         def test_add(self, a, b, expected):
             assert_equal(a + b, expected)

     @parameterized([
         (2, 3, 5),
     ])
     def test_add(a, b, expected):
         assert_equal(a + b, expected)


 And ``@parameterized.expand`` can be used to generate test methods in
 situations where test generators cannot be used (for example, when the test
 class is a subclass of ``unittest.TestCase``):

 .. code:: python

     import unittest
     from nose_parameterized import parameterized

     class AddTestCase(unittest.TestCase):
         @parameterized.expand([
             ("2 and 3", 2, 3, 5),
             ("3 and 5", 2, 3, 5),
         ])
         def test_add(self, _, a, b, expected):
             assert_equal(a + b, expected)

 Will create the test cases::

     $ nosetests example.py
     test_add_0_2_and_3 (example.AddTestCase) ... ok
     test_add_1_3_and_5 (example.AddTestCase) ... ok

     ----------------------------------------------------------------------
     Ran 2 tests in 0.001s

     OK

 Note that ``@parameterized.expand`` works by creating new methods on the test
 class. If the first parameter is a string, that string will be added to the end
 of the method name. For example, the test case above will generate the methods
 ``test_add_0_2_and_3`` and ``test_add_1_3_and_5``.

 The names of the test cases generated by ``@parameterized.expand`` can be
 customized using the ``testcase_func_name`` keyword argument. The value should
 be a function which accepts three arguments: ``testcase_func``, ``param_num``,
 and ``params``, and it should return the name of the test case.
 ``testcase_func`` will be the function to be tested, ``param_num`` will be the
 index of the test case parameters in the list of parameters, and ``param``
 (an instance of ``param``) will be the parameters which will be used.

 .. code:: python

     import unittest
     from nose_parameterized import parameterized

     def custom_name_func(testcase_func, param_num, param):
         return "%s_%s" %(
             testcase_func.__name__,
             parameterized.to_safe_name("_".join(str(x) for x in param.args)),
         )

     class AddTestCase(unittest.TestCase):
         @parameterized.expand([
             (2, 3, 5),
             (2, 3, 5),
         ], testcase_func_name=custom_name_func)
         def test_add(self, a, b, expected):
             assert_equal(a + b, expected)

 Will create the test cases::

     $ nosetests example.py
     test_add_1_2_3 (example.AddTestCase) ... ok
     test_add_2_3_5 (example.AddTestCase) ... ok

     ----------------------------------------------------------------------
     Ran 2 tests in 0.001s

     OK


 The ``param(...)`` helper class stores the parameters for one specific test
 case.  It can be used to pass keyword arguments to test cases:

 .. code:: python

     from nose_parameterized import parameterized, param

     @parameterized([
         param("10", 10),
         param("10", 16, base=16),
     ])
     def test_int(str_val, expected, base=10):
         assert_equal(int(str_val, base=base), expected)
	``nose-parameterized`` is a decorator for parameterized testing with ``nose``
	=============================================================================

	Now with 100% less Python 3 incompatibility!

	Nose. It's got test generators. But they kind of suck:

	* They often require a second function
	* They make it difficult to separate the data from the test
	* They don't work with subclases of ``unittest.TestCase``
	* ``kwargs``? What ``kwargs``?

	But ``nose-parameterized`` fixes that:

	.. code:: python

	# test_math.py
	from nose.tools import assert_equal
	from nose_parameterized import parameterized

	import unittest
	import math

	@parameterized([
	(2, 2, 4),
	(2, 3, 8),
	(1, 9, 1),
	(0, 9, 0),
	])
	def test_pow(base, exponent, expected):
	assert_equal(math.pow(base, exponent), expected)

	class TestMathUnitTest(unittest.TestCase):
	@parameterized.expand([
	("negative", -1.5, -2.0),
	("integer", 1, 1.0),
	("large fraction", 1.6, 1),
	])
	def test_floor(self, name, input, expected):
	assert_equal(math.floor(input), expected)

	::

	$ nosetests -v test_math.py
	test_math.test_pow(2, 2, 4) ... ok
	test_math.test_pow(2, 3, 8) ... ok
	test_math.test_pow(1, 9, 1) ... ok
	test_math.test_pow(0, 9, 0) ... ok
	test_floor_0_negative (test_math.TestMathUnitTest) ... ok
	test_floor_1_integer (test_math.TestMathUnitTest) ... ok
	test_floor_2_large_fraction (test_math.TestMathUnitTest) ... ok

	----------------------------------------------------------------------
	Ran 7 tests in 0.002s

	OK


	Exhaustive Usage Examples
	--------------------------

	The ``@parameterized`` and ``@parameterized.expand`` decorators accept a list
	or iterable of tuples or ``param(...)``, or a callable which returns a list or
	iterable:

	.. code:: python

	from nose_parameterized import parameterized, param

	# A list of tuples
	@parameterized([
	(2, 3, 5),
	(3, 5, 8),
	])
	def test_add(a, b, expected):
	assert_equal(a + b, expected)

	# A list of params
	@parameterized([
	param("10", 10),
	param("10", 16, base=16),
	])
	def test_int(str_val, expected, base=10):
	assert_equal(int(str_val, base=base), expected)

	# An iterable of params
	@parameterized(
	param.explicit(*json.loads(line))
	for line in open("testcases.jsons")
	)
	def test_from_json_file(...):
	...

	# A callable which returns a list of tuples
	def load_test_cases():
	return [
	("test1", ),
	("test2", ),
	]
	@parameterized(load_test_cases)
	def test_from_function(name):
	...

	.. **

	Note that, when using an iterator or a generator, Nose will read every item
	into memory before running any tests (as it first finds and loads every test in
	each test file, then executes all of them at once).

	The ``@parameterized`` decorator can be used test class methods, and standalone
	functions:

	.. code:: python

	from nose_parameterized import parameterized

	class AddTest(object):
	@parameterized([
	(2, 3, 5),
	])
	def test_add(self, a, b, expected):
	assert_equal(a + b, expected)

	@parameterized([
	(2, 3, 5),
	])
	def test_add(a, b, expected):
	assert_equal(a + b, expected)


	And ``@parameterized.expand`` can be used to generate test methods in
	situations where test generators cannot be used (for example, when the test
	class is a subclass of ``unittest.TestCase``):

	.. code:: python

	import unittest
	from nose_parameterized import parameterized

	class AddTestCase(unittest.TestCase):
	@parameterized.expand([
	("2 and 3", 2, 3, 5),
	("3 and 5", 2, 3, 5),
	])
	def test_add(self, _, a, b, expected):
	assert_equal(a + b, expected)

	Will create the test cases::

	$ nosetests example.py
	test_add_0_2_and_3 (example.AddTestCase) ... ok
	test_add_1_3_and_5 (example.AddTestCase) ... ok

	----------------------------------------------------------------------
	Ran 2 tests in 0.001s

	OK

	Note that ``@parameterized.expand`` works by creating new methods on the test
	class. If the first parameter is a string, that string will be added to the end
	of the method name. For example, the test case above will generate the methods
	``test_add_0_2_and_3`` and ``test_add_1_3_and_5``.

	The names of the test cases generated by ``@parameterized.expand`` can be
	customized using the ``testcase_func_name`` keyword argument. The value should
	be a function which accepts three arguments: ``testcase_func``, ``param_num``,
	and ``params``, and it should return the name of the test case.
	``testcase_func`` will be the function to be tested, ``param_num`` will be the
	index of the test case parameters in the list of parameters, and ``param``
	(an instance of ``param``) will be the parameters which will be used.

	.. code:: python

	import unittest
	from nose_parameterized import parameterized

	def custom_name_func(testcase_func, param_num, param):
	return "%s_%s" %(
	testcase_func.__name__,
	parameterized.to_safe_name("_".join(str(x) for x in param.args)),
	)

	class AddTestCase(unittest.TestCase):
	@parameterized.expand([
	(2, 3, 5),
	(2, 3, 5),
	], testcase_func_name=custom_name_func)
	def test_add(self, a, b, expected):
	assert_equal(a + b, expected)

	Will create the test cases::

	$ nosetests example.py
	test_add_1_2_3 (example.AddTestCase) ... ok
	test_add_2_3_5 (example.AddTestCase) ... ok

	----------------------------------------------------------------------
	Ran 2 tests in 0.001s

	OK


	The ``param(...)`` helper class stores the parameters for one specific test
	case. It can be used to pass keyword arguments to test cases:

	.. code:: python

	from nose_parameterized import parameterized, param

	@parameterized([
	param("10", 10),
	param("10", 16, base=16),
	])
	def test_int(str_val, expected, base=10):
	assert_equal(int(str_val, base=base), expected)