cpython/Lib/unittest/test/test_program.py

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import io
import os
import sys
import subprocess
from test import support
import unittest
import unittest.test
class Test_TestProgram(unittest.TestCase):
def test_discovery_from_dotted_path(self):
loader = unittest.TestLoader()
tests = [self]
expectedPath = os.path.abspath(os.path.dirname(unittest.test.__file__))
self.wasRun = False
def _find_tests(start_dir, pattern):
self.wasRun = True
self.assertEqual(start_dir, expectedPath)
return tests
loader._find_tests = _find_tests
suite = loader.discover('unittest.test')
self.assertTrue(self.wasRun)
self.assertEqual(suite._tests, tests)
# Horrible white box test
def testNoExit(self):
result = object()
test = object()
class FakeRunner(object):
def run(self, test):
self.test = test
return result
runner = FakeRunner()
oldParseArgs = unittest.TestProgram.parseArgs
def restoreParseArgs():
unittest.TestProgram.parseArgs = oldParseArgs
unittest.TestProgram.parseArgs = lambda *args: None
self.addCleanup(restoreParseArgs)
def removeTest():
del unittest.TestProgram.test
unittest.TestProgram.test = test
self.addCleanup(removeTest)
program = unittest.TestProgram(testRunner=runner, exit=False, verbosity=2)
self.assertEqual(program.result, result)
self.assertEqual(runner.test, test)
self.assertEqual(program.verbosity, 2)
class FooBar(unittest.TestCase):
def testPass(self):
assert True
def testFail(self):
assert False
class FooBarLoader(unittest.TestLoader):
"""Test loader that returns a suite containing FooBar."""
def loadTestsFromModule(self, module):
return self.suiteClass(
[self.loadTestsFromTestCase(Test_TestProgram.FooBar)])
def loadTestsFromNames(self, names, module):
return self.suiteClass(
[self.loadTestsFromTestCase(Test_TestProgram.FooBar)])
def test_defaultTest_with_string(self):
class FakeRunner(object):
def run(self, test):
self.test = test
return True
old_argv = sys.argv
sys.argv = ['faketest']
runner = FakeRunner()
program = unittest.TestProgram(testRunner=runner, exit=False,
defaultTest='unittest.test',
testLoader=self.FooBarLoader())
sys.argv = old_argv
self.assertEqual(('unittest.test',), program.testNames)
def test_defaultTest_with_iterable(self):
class FakeRunner(object):
def run(self, test):
self.test = test
return True
old_argv = sys.argv
sys.argv = ['faketest']
runner = FakeRunner()
program = unittest.TestProgram(
testRunner=runner, exit=False,
defaultTest=['unittest.test', 'unittest.test2'],
testLoader=self.FooBarLoader())
sys.argv = old_argv
self.assertEqual(['unittest.test', 'unittest.test2'],
program.testNames)
def test_NonExit(self):
program = unittest.main(exit=False,
argv=["foobar"],
testRunner=unittest.TextTestRunner(stream=io.StringIO()),
testLoader=self.FooBarLoader())
self.assertTrue(hasattr(program, 'result'))
def test_Exit(self):
self.assertRaises(
SystemExit,
unittest.main,
argv=["foobar"],
testRunner=unittest.TextTestRunner(stream=io.StringIO()),
exit=True,
testLoader=self.FooBarLoader())
def test_ExitAsDefault(self):
self.assertRaises(
SystemExit,
unittest.main,
argv=["foobar"],
testRunner=unittest.TextTestRunner(stream=io.StringIO()),
testLoader=self.FooBarLoader())
class InitialisableProgram(unittest.TestProgram):
exit = False
result = None
verbosity = 1
defaultTest = None
tb_locals = False
testRunner = None
testLoader = unittest.defaultTestLoader
module = '__main__'
progName = 'test'
test = 'test'
def __init__(self, *args):
pass
RESULT = object()
class FakeRunner(object):
initArgs = None
test = None
raiseError = 0
def __init__(self, **kwargs):
FakeRunner.initArgs = kwargs
if FakeRunner.raiseError:
FakeRunner.raiseError -= 1
raise TypeError
def run(self, test):
FakeRunner.test = test
return RESULT
class TestCommandLineArgs(unittest.TestCase):
def setUp(self):
self.program = InitialisableProgram()
self.program.createTests = lambda: None
FakeRunner.initArgs = None
FakeRunner.test = None
FakeRunner.raiseError = 0
def testVerbosity(self):
program = self.program
for opt in '-q', '--quiet':
program.verbosity = 1
program.parseArgs([None, opt])
self.assertEqual(program.verbosity, 0)
for opt in '-v', '--verbose':
program.verbosity = 1
program.parseArgs([None, opt])
self.assertEqual(program.verbosity, 2)
def testBufferCatchFailfast(self):
program = self.program
for arg, attr in (('buffer', 'buffer'), ('failfast', 'failfast'),
('catch', 'catchbreak')):
if attr == 'catch' and not hasInstallHandler:
continue
setattr(program, attr, None)
program.parseArgs([None])
self.assertIs(getattr(program, attr), False)
false = []
setattr(program, attr, false)
program.parseArgs([None])
self.assertIs(getattr(program, attr), false)
true = [42]
setattr(program, attr, true)
program.parseArgs([None])
self.assertIs(getattr(program, attr), true)
short_opt = '-%s' % arg[0]
long_opt = '--%s' % arg
for opt in short_opt, long_opt:
setattr(program, attr, None)
program.parseArgs([None, opt])
self.assertIs(getattr(program, attr), True)
setattr(program, attr, False)
with support.captured_stderr() as stderr, \
self.assertRaises(SystemExit) as cm:
program.parseArgs([None, opt])
self.assertEqual(cm.exception.args, (2,))
setattr(program, attr, True)
with support.captured_stderr() as stderr, \
self.assertRaises(SystemExit) as cm:
program.parseArgs([None, opt])
self.assertEqual(cm.exception.args, (2,))
def testWarning(self):
"""Test the warnings argument"""
# see #10535
class FakeTP(unittest.TestProgram):
def parseArgs(self, *args, **kw): pass
def runTests(self, *args, **kw): pass
warnoptions = sys.warnoptions[:]
try:
sys.warnoptions[:] = []
# no warn options, no arg -> default
self.assertEqual(FakeTP().warnings, 'default')
# no warn options, w/ arg -> arg value
self.assertEqual(FakeTP(warnings='ignore').warnings, 'ignore')
sys.warnoptions[:] = ['somevalue']
# warn options, no arg -> None
# warn options, w/ arg -> arg value
self.assertEqual(FakeTP().warnings, None)
self.assertEqual(FakeTP(warnings='ignore').warnings, 'ignore')
finally:
sys.warnoptions[:] = warnoptions
def testRunTestsRunnerClass(self):
program = self.program
program.testRunner = FakeRunner
program.verbosity = 'verbosity'
program.failfast = 'failfast'
program.buffer = 'buffer'
program.warnings = 'warnings'
program.runTests()
self.assertEqual(FakeRunner.initArgs, {'verbosity': 'verbosity',
'failfast': 'failfast',
'buffer': 'buffer',
'tb_locals': False,
'warnings': 'warnings'})
self.assertEqual(FakeRunner.test, 'test')
self.assertIs(program.result, RESULT)
def testRunTestsRunnerInstance(self):
program = self.program
program.testRunner = FakeRunner()
FakeRunner.initArgs = None
program.runTests()
# A new FakeRunner should not have been instantiated
self.assertIsNone(FakeRunner.initArgs)
self.assertEqual(FakeRunner.test, 'test')
self.assertIs(program.result, RESULT)
def test_locals(self):
program = self.program
program.testRunner = FakeRunner
program.parseArgs([None, '--locals'])
self.assertEqual(True, program.tb_locals)
program.runTests()
self.assertEqual(FakeRunner.initArgs, {'buffer': False,
'failfast': False,
'tb_locals': True,
'verbosity': 1,
'warnings': None})
def testRunTestsOldRunnerClass(self):
program = self.program
# Two TypeErrors are needed to fall all the way back to old-style
# runners - one to fail tb_locals, one to fail buffer etc.
FakeRunner.raiseError = 2
program.testRunner = FakeRunner
program.verbosity = 'verbosity'
program.failfast = 'failfast'
program.buffer = 'buffer'
program.test = 'test'
program.runTests()
# If initialising raises a type error it should be retried
# without the new keyword arguments
self.assertEqual(FakeRunner.initArgs, {})
self.assertEqual(FakeRunner.test, 'test')
self.assertIs(program.result, RESULT)
def testCatchBreakInstallsHandler(self):
module = sys.modules['unittest.main']
original = module.installHandler
def restore():
module.installHandler = original
self.addCleanup(restore)
self.installed = False
def fakeInstallHandler():
self.installed = True
module.installHandler = fakeInstallHandler
program = self.program
program.catchbreak = True
program.testRunner = FakeRunner
program.runTests()
self.assertTrue(self.installed)
def _patch_isfile(self, names, exists=True):
def isfile(path):
return path in names
original = os.path.isfile
os.path.isfile = isfile
def restore():
os.path.isfile = original
self.addCleanup(restore)
def testParseArgsFileNames(self):
# running tests with filenames instead of module names
program = self.program
argv = ['progname', 'foo.py', 'bar.Py', 'baz.PY', 'wing.txt']
self._patch_isfile(argv)
program.createTests = lambda: None
program.parseArgs(argv)
# note that 'wing.txt' is not a Python file so the name should
# *not* be converted to a module name
expected = ['foo', 'bar', 'baz', 'wing.txt']
self.assertEqual(program.testNames, expected)
def testParseArgsFilePaths(self):
program = self.program
argv = ['progname', 'foo/bar/baz.py', 'green\\red.py']
self._patch_isfile(argv)
program.createTests = lambda: None
program.parseArgs(argv)
expected = ['foo.bar.baz', 'green.red']
self.assertEqual(program.testNames, expected)
def testParseArgsNonExistentFiles(self):
program = self.program
argv = ['progname', 'foo/bar/baz.py', 'green\\red.py']
self._patch_isfile([])
program.createTests = lambda: None
program.parseArgs(argv)
self.assertEqual(program.testNames, argv[1:])
def testParseArgsAbsolutePathsThatCanBeConverted(self):
cur_dir = os.getcwd()
program = self.program
def _join(name):
return os.path.join(cur_dir, name)
argv = ['progname', _join('foo/bar/baz.py'), _join('green\\red.py')]
self._patch_isfile(argv)
program.createTests = lambda: None
program.parseArgs(argv)
expected = ['foo.bar.baz', 'green.red']
self.assertEqual(program.testNames, expected)
def testParseArgsAbsolutePathsThatCannotBeConverted(self):
program = self.program
2010-12-03 21:43:59 -04:00
# even on Windows '/...' is considered absolute by os.path.abspath
argv = ['progname', '/foo/bar/baz.py', '/green/red.py']
self._patch_isfile(argv)
program.createTests = lambda: None
program.parseArgs(argv)
self.assertEqual(program.testNames, argv[1:])
# it may be better to use platform specific functions to normalise paths
# rather than accepting '.PY' and '\' as file separator on Linux / Mac
# it would also be better to check that a filename is a valid module
# identifier (we have a regex for this in loader.py)
# for invalid filenames should we raise a useful error rather than
# leaving the current error message (import of filename fails) in place?
def testParseArgsSelectedTestNames(self):
program = self.program
argv = ['progname', '-k', 'foo', '-k', 'bar', '-k', '*pat*']
program.createTests = lambda: None
program.parseArgs(argv)
self.assertEqual(program.testNamePatterns, ['*foo*', '*bar*', '*pat*'])
def testSelectedTestNamesFunctionalTest(self):
def run_unittest(args):
p = subprocess.Popen([sys.executable, '-m', 'unittest'] + args,
stdout=subprocess.DEVNULL, stderr=subprocess.PIPE, cwd=os.path.dirname(__file__))
with p:
_, stderr = p.communicate()
return stderr.decode()
t = '_test_warnings'
self.assertIn('Ran 7 tests', run_unittest([t]))
self.assertIn('Ran 7 tests', run_unittest(['-k', 'TestWarnings', t]))
self.assertIn('Ran 7 tests', run_unittest(['discover', '-p', '*_test*', '-k', 'TestWarnings']))
self.assertIn('Ran 2 tests', run_unittest(['-k', 'f', t]))
self.assertIn('Ran 7 tests', run_unittest(['-k', 't', t]))
self.assertIn('Ran 3 tests', run_unittest(['-k', '*t', t]))
self.assertIn('Ran 7 tests', run_unittest(['-k', '*test_warnings.*Warning*', t]))
self.assertIn('Ran 1 test', run_unittest(['-k', '*test_warnings.*warning*', t]))
if __name__ == '__main__':
unittest.main()