450 lines
15 KiB
Python
450 lines
15 KiB
Python
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#! /usr/bin/env python
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#
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# Protocol Buffers - Google's data interchange format
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# Copyright 2008 Google Inc. All rights reserved.
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# https://developers.google.com/protocol-buffers/
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions are
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# met:
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#
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# * Redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer.
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# * Redistributions in binary form must reproduce the above
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# copyright notice, this list of conditions and the following disclaimer
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# in the documentation and/or other materials provided with the
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# distribution.
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# * Neither the name of Google Inc. nor the names of its
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# contributors may be used to endorse or promote products derived from
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# this software without specific prior written permission.
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#
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# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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"""Adds support for parameterized tests to Python's unittest TestCase class.
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A parameterized test is a method in a test case that is invoked with different
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argument tuples.
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A simple example:
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class AdditionExample(parameterized.TestCase):
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@parameterized.parameters(
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(1, 2, 3),
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(4, 5, 9),
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(1, 1, 3))
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def testAddition(self, op1, op2, result):
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self.assertEqual(result, op1 + op2)
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Each invocation is a separate test case and properly isolated just
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like a normal test method, with its own setUp/tearDown cycle. In the
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example above, there are three separate testcases, one of which will
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fail due to an assertion error (1 + 1 != 3).
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Parameters for individual test cases can be tuples (with positional parameters)
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or dictionaries (with named parameters):
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class AdditionExample(parameterized.TestCase):
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@parameterized.parameters(
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{'op1': 1, 'op2': 2, 'result': 3},
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{'op1': 4, 'op2': 5, 'result': 9},
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)
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def testAddition(self, op1, op2, result):
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self.assertEqual(result, op1 + op2)
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If a parameterized test fails, the error message will show the
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original test name (which is modified internally) and the arguments
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for the specific invocation, which are part of the string returned by
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the shortDescription() method on test cases.
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The id method of the test, used internally by the unittest framework,
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is also modified to show the arguments. To make sure that test names
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stay the same across several invocations, object representations like
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>>> class Foo(object):
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... pass
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>>> repr(Foo())
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'<__main__.Foo object at 0x23d8610>'
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are turned into '<__main__.Foo>'. For even more descriptive names,
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especially in test logs, you can use the named_parameters decorator. In
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this case, only tuples are supported, and the first parameters has to
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be a string (or an object that returns an apt name when converted via
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str()):
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class NamedExample(parameterized.TestCase):
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@parameterized.named_parameters(
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('Normal', 'aa', 'aaa', True),
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('EmptyPrefix', '', 'abc', True),
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('BothEmpty', '', '', True))
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def testStartsWith(self, prefix, string, result):
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self.assertEqual(result, strings.startswith(prefix))
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Named tests also have the benefit that they can be run individually
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from the command line:
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$ testmodule.py NamedExample.testStartsWithNormal
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.
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--------------------------------------------------------------------
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Ran 1 test in 0.000s
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OK
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Parameterized Classes
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=====================
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If invocation arguments are shared across test methods in a single
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TestCase class, instead of decorating all test methods
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individually, the class itself can be decorated:
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@parameterized.parameters(
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(1, 2, 3)
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(4, 5, 9))
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class ArithmeticTest(parameterized.TestCase):
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def testAdd(self, arg1, arg2, result):
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self.assertEqual(arg1 + arg2, result)
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def testSubtract(self, arg2, arg2, result):
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self.assertEqual(result - arg1, arg2)
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Inputs from Iterables
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=====================
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If parameters should be shared across several test cases, or are dynamically
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created from other sources, a single non-tuple iterable can be passed into
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the decorator. This iterable will be used to obtain the test cases:
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class AdditionExample(parameterized.TestCase):
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@parameterized.parameters(
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c.op1, c.op2, c.result for c in testcases
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)
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def testAddition(self, op1, op2, result):
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self.assertEqual(result, op1 + op2)
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Single-Argument Test Methods
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============================
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If a test method takes only one argument, the single argument does not need to
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be wrapped into a tuple:
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class NegativeNumberExample(parameterized.TestCase):
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@parameterized.parameters(
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-1, -3, -4, -5
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)
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def testIsNegative(self, arg):
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self.assertTrue(IsNegative(arg))
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"""
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__author__ = 'tmarek@google.com (Torsten Marek)'
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import functools
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import re
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import types
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try:
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import unittest2 as unittest
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except ImportError:
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import unittest
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import uuid
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import six
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try:
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# Since python 3
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import collections.abc as collections_abc
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except ImportError:
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# Won't work after python 3.8
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import collections as collections_abc
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ADDR_RE = re.compile(r'\<([a-zA-Z0-9_\-\.]+) object at 0x[a-fA-F0-9]+\>')
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_SEPARATOR = uuid.uuid1().hex
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_FIRST_ARG = object()
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_ARGUMENT_REPR = object()
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def _CleanRepr(obj):
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return ADDR_RE.sub(r'<\1>', repr(obj))
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# Helper function formerly from the unittest module, removed from it in
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# Python 2.7.
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def _StrClass(cls):
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return '%s.%s' % (cls.__module__, cls.__name__)
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def _NonStringIterable(obj):
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return (isinstance(obj, collections_abc.Iterable) and not
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isinstance(obj, six.string_types))
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def _FormatParameterList(testcase_params):
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if isinstance(testcase_params, collections_abc.Mapping):
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return ', '.join('%s=%s' % (argname, _CleanRepr(value))
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for argname, value in testcase_params.items())
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elif _NonStringIterable(testcase_params):
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return ', '.join(map(_CleanRepr, testcase_params))
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else:
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return _FormatParameterList((testcase_params,))
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class _ParameterizedTestIter(object):
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"""Callable and iterable class for producing new test cases."""
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def __init__(self, test_method, testcases, naming_type):
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"""Returns concrete test functions for a test and a list of parameters.
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The naming_type is used to determine the name of the concrete
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functions as reported by the unittest framework. If naming_type is
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_FIRST_ARG, the testcases must be tuples, and the first element must
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have a string representation that is a valid Python identifier.
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Args:
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test_method: The decorated test method.
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testcases: (list of tuple/dict) A list of parameter
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tuples/dicts for individual test invocations.
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naming_type: The test naming type, either _NAMED or _ARGUMENT_REPR.
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"""
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self._test_method = test_method
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self.testcases = testcases
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self._naming_type = naming_type
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def __call__(self, *args, **kwargs):
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raise RuntimeError('You appear to be running a parameterized test case '
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'without having inherited from parameterized.'
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'TestCase. This is bad because none of '
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'your test cases are actually being run.')
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def __iter__(self):
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test_method = self._test_method
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naming_type = self._naming_type
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def MakeBoundParamTest(testcase_params):
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@functools.wraps(test_method)
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def BoundParamTest(self):
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if isinstance(testcase_params, collections_abc.Mapping):
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test_method(self, **testcase_params)
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elif _NonStringIterable(testcase_params):
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test_method(self, *testcase_params)
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else:
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test_method(self, testcase_params)
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if naming_type is _FIRST_ARG:
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# Signal the metaclass that the name of the test function is unique
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# and descriptive.
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BoundParamTest.__x_use_name__ = True
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BoundParamTest.__name__ += str(testcase_params[0])
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testcase_params = testcase_params[1:]
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elif naming_type is _ARGUMENT_REPR:
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# __x_extra_id__ is used to pass naming information to the __new__
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# method of TestGeneratorMetaclass.
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# The metaclass will make sure to create a unique, but nondescriptive
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# name for this test.
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BoundParamTest.__x_extra_id__ = '(%s)' % (
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_FormatParameterList(testcase_params),)
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else:
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raise RuntimeError('%s is not a valid naming type.' % (naming_type,))
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BoundParamTest.__doc__ = '%s(%s)' % (
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BoundParamTest.__name__, _FormatParameterList(testcase_params))
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if test_method.__doc__:
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BoundParamTest.__doc__ += '\n%s' % (test_method.__doc__,)
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return BoundParamTest
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return (MakeBoundParamTest(c) for c in self.testcases)
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def _IsSingletonList(testcases):
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"""True iff testcases contains only a single non-tuple element."""
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return len(testcases) == 1 and not isinstance(testcases[0], tuple)
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def _ModifyClass(class_object, testcases, naming_type):
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assert not getattr(class_object, '_id_suffix', None), (
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'Cannot add parameters to %s,'
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' which already has parameterized methods.' % (class_object,))
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class_object._id_suffix = id_suffix = {}
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# We change the size of __dict__ while we iterate over it,
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# which Python 3.x will complain about, so use copy().
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for name, obj in class_object.__dict__.copy().items():
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if (name.startswith(unittest.TestLoader.testMethodPrefix)
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and isinstance(obj, types.FunctionType)):
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delattr(class_object, name)
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methods = {}
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_UpdateClassDictForParamTestCase(
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methods, id_suffix, name,
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_ParameterizedTestIter(obj, testcases, naming_type))
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for name, meth in methods.items():
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setattr(class_object, name, meth)
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def _ParameterDecorator(naming_type, testcases):
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"""Implementation of the parameterization decorators.
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Args:
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naming_type: The naming type.
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testcases: Testcase parameters.
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Returns:
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A function for modifying the decorated object.
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"""
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def _Apply(obj):
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if isinstance(obj, type):
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_ModifyClass(
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obj,
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list(testcases) if not isinstance(testcases, collections_abc.Sequence)
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else testcases,
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naming_type)
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return obj
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else:
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return _ParameterizedTestIter(obj, testcases, naming_type)
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if _IsSingletonList(testcases):
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assert _NonStringIterable(testcases[0]), (
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'Single parameter argument must be a non-string iterable')
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testcases = testcases[0]
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return _Apply
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def parameters(*testcases): # pylint: disable=invalid-name
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"""A decorator for creating parameterized tests.
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See the module docstring for a usage example.
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Args:
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*testcases: Parameters for the decorated method, either a single
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iterable, or a list of tuples/dicts/objects (for tests
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with only one argument).
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Returns:
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A test generator to be handled by TestGeneratorMetaclass.
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"""
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return _ParameterDecorator(_ARGUMENT_REPR, testcases)
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def named_parameters(*testcases): # pylint: disable=invalid-name
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"""A decorator for creating parameterized tests.
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See the module docstring for a usage example. The first element of
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each parameter tuple should be a string and will be appended to the
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name of the test method.
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Args:
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*testcases: Parameters for the decorated method, either a single
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iterable, or a list of tuples.
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Returns:
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A test generator to be handled by TestGeneratorMetaclass.
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"""
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return _ParameterDecorator(_FIRST_ARG, testcases)
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class TestGeneratorMetaclass(type):
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"""Metaclass for test cases with test generators.
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A test generator is an iterable in a testcase that produces callables. These
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callables must be single-argument methods. These methods are injected into
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the class namespace and the original iterable is removed. If the name of the
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iterable conforms to the test pattern, the injected methods will be picked
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up as tests by the unittest framework.
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In general, it is supposed to be used in conjunction with the
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parameters decorator.
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"""
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def __new__(mcs, class_name, bases, dct):
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dct['_id_suffix'] = id_suffix = {}
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for name, obj in dct.items():
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if (name.startswith(unittest.TestLoader.testMethodPrefix) and
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_NonStringIterable(obj)):
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iterator = iter(obj)
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dct.pop(name)
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_UpdateClassDictForParamTestCase(dct, id_suffix, name, iterator)
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return type.__new__(mcs, class_name, bases, dct)
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def _UpdateClassDictForParamTestCase(dct, id_suffix, name, iterator):
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"""Adds individual test cases to a dictionary.
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Args:
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dct: The target dictionary.
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id_suffix: The dictionary for mapping names to test IDs.
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name: The original name of the test case.
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iterator: The iterator generating the individual test cases.
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"""
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for idx, func in enumerate(iterator):
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assert callable(func), 'Test generators must yield callables, got %r' % (
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func,)
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if getattr(func, '__x_use_name__', False):
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new_name = func.__name__
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else:
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new_name = '%s%s%d' % (name, _SEPARATOR, idx)
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assert new_name not in dct, (
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'Name of parameterized test case "%s" not unique' % (new_name,))
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dct[new_name] = func
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id_suffix[new_name] = getattr(func, '__x_extra_id__', '')
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class TestCase(unittest.TestCase):
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"""Base class for test cases using the parameters decorator."""
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__metaclass__ = TestGeneratorMetaclass
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def _OriginalName(self):
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return self._testMethodName.split(_SEPARATOR)[0]
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def __str__(self):
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return '%s (%s)' % (self._OriginalName(), _StrClass(self.__class__))
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def id(self): # pylint: disable=invalid-name
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"""Returns the descriptive ID of the test.
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This is used internally by the unittesting framework to get a name
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for the test to be used in reports.
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Returns:
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The test id.
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"""
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return '%s.%s%s' % (_StrClass(self.__class__),
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self._OriginalName(),
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self._id_suffix.get(self._testMethodName, ''))
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def CoopTestCase(other_base_class):
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"""Returns a new base class with a cooperative metaclass base.
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This enables the TestCase to be used in combination
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with other base classes that have custom metaclasses, such as
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mox.MoxTestBase.
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Only works with metaclasses that do not override type.__new__.
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Example:
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import google3
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import mox
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from google3.testing.pybase import parameterized
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class ExampleTest(parameterized.CoopTestCase(mox.MoxTestBase)):
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...
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|
Args:
|
||
|
other_base_class: (class) A test case base class.
|
||
|
|
||
|
Returns:
|
||
|
A new class object.
|
||
|
"""
|
||
|
metaclass = type(
|
||
|
'CoopMetaclass',
|
||
|
(other_base_class.__metaclass__,
|
||
|
TestGeneratorMetaclass), {})
|
||
|
return metaclass(
|
||
|
'CoopTestCase',
|
||
|
(other_base_class, TestCase), {})
|