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b992a0e102
requires them. Disable executable bits and shebang lines in test and benchmark files in order to prevent using a random system python, and in source files of modules which don't provide command line interface. Fixed shebang line to use python3 executable in the unittestgui script.
194 lines
5.5 KiB
Python
194 lines
5.5 KiB
Python
"""Test script for the dumbdbm module
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Original by Roger E. Masse
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"""
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import io
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import os
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import unittest
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import dbm.dumb as dumbdbm
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from test import support
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_fname = support.TESTFN
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def _delete_files():
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for ext in [".dir", ".dat", ".bak"]:
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try:
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os.unlink(_fname + ext)
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except OSError:
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pass
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class DumbDBMTestCase(unittest.TestCase):
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_dict = {b'0': b'',
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b'a': b'Python:',
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b'b': b'Programming',
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b'c': b'the',
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b'd': b'way',
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b'f': b'Guido',
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b'g': b'intended',
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'\u00fc'.encode('utf-8') : b'!',
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}
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def test_dumbdbm_creation(self):
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f = dumbdbm.open(_fname, 'c')
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self.assertEqual(list(f.keys()), [])
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for key in self._dict:
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f[key] = self._dict[key]
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self.read_helper(f)
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f.close()
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@unittest.skipUnless(hasattr(os, 'umask'), 'test needs os.umask()')
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@unittest.skipUnless(hasattr(os, 'chmod'), 'test needs os.chmod()')
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def test_dumbdbm_creation_mode(self):
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try:
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old_umask = os.umask(0o002)
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f = dumbdbm.open(_fname, 'c', 0o637)
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f.close()
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finally:
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os.umask(old_umask)
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expected_mode = 0o635
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if os.name != 'posix':
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# Windows only supports setting the read-only attribute.
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# This shouldn't fail, but doesn't work like Unix either.
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expected_mode = 0o666
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import stat
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st = os.stat(_fname + '.dat')
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self.assertEqual(stat.S_IMODE(st.st_mode), expected_mode)
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st = os.stat(_fname + '.dir')
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self.assertEqual(stat.S_IMODE(st.st_mode), expected_mode)
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def test_close_twice(self):
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f = dumbdbm.open(_fname)
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f[b'a'] = b'b'
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self.assertEqual(f[b'a'], b'b')
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f.close()
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f.close()
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def test_dumbdbm_modification(self):
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self.init_db()
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f = dumbdbm.open(_fname, 'w')
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self._dict[b'g'] = f[b'g'] = b"indented"
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self.read_helper(f)
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f.close()
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def test_dumbdbm_read(self):
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self.init_db()
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f = dumbdbm.open(_fname, 'r')
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self.read_helper(f)
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f.close()
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def test_dumbdbm_keys(self):
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self.init_db()
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f = dumbdbm.open(_fname)
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keys = self.keys_helper(f)
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f.close()
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def test_write_contains(self):
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f = dumbdbm.open(_fname)
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f[b'1'] = b'hello'
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self.assertIn(b'1', f)
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f.close()
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def test_write_write_read(self):
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# test for bug #482460
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f = dumbdbm.open(_fname)
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f[b'1'] = b'hello'
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f[b'1'] = b'hello2'
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f.close()
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f = dumbdbm.open(_fname)
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self.assertEqual(f[b'1'], b'hello2')
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f.close()
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def test_str_read(self):
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self.init_db()
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f = dumbdbm.open(_fname, 'r')
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self.assertEqual(f['\u00fc'], self._dict['\u00fc'.encode('utf-8')])
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def test_str_write_contains(self):
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self.init_db()
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f = dumbdbm.open(_fname)
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f['\u00fc'] = b'!'
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f['1'] = 'a'
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f.close()
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f = dumbdbm.open(_fname, 'r')
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self.assertIn('\u00fc', f)
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self.assertEqual(f['\u00fc'.encode('utf-8')],
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self._dict['\u00fc'.encode('utf-8')])
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self.assertEqual(f[b'1'], b'a')
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def test_line_endings(self):
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# test for bug #1172763: dumbdbm would die if the line endings
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# weren't what was expected.
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f = dumbdbm.open(_fname)
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f[b'1'] = b'hello'
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f[b'2'] = b'hello2'
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f.close()
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# Mangle the file by changing the line separator to Windows or Unix
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with io.open(_fname + '.dir', 'rb') as file:
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data = file.read()
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if os.linesep == '\n':
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data = data.replace(b'\n', b'\r\n')
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else:
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data = data.replace(b'\r\n', b'\n')
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with io.open(_fname + '.dir', 'wb') as file:
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file.write(data)
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f = dumbdbm.open(_fname)
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self.assertEqual(f[b'1'], b'hello')
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self.assertEqual(f[b'2'], b'hello2')
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def read_helper(self, f):
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keys = self.keys_helper(f)
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for key in self._dict:
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self.assertEqual(self._dict[key], f[key])
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def init_db(self):
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f = dumbdbm.open(_fname, 'w')
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for k in self._dict:
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f[k] = self._dict[k]
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f.close()
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def keys_helper(self, f):
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keys = sorted(f.keys())
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dkeys = sorted(self._dict.keys())
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self.assertEqual(keys, dkeys)
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return keys
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# Perform randomized operations. This doesn't make assumptions about
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# what *might* fail.
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def test_random(self):
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import random
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d = {} # mirror the database
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for dummy in range(5):
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f = dumbdbm.open(_fname)
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for dummy in range(100):
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k = random.choice('abcdefghijklm')
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if random.random() < 0.2:
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if k in d:
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del d[k]
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del f[k]
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else:
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v = random.choice((b'a', b'b', b'c')) * random.randrange(10000)
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d[k] = v
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f[k] = v
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self.assertEqual(f[k], v)
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f.close()
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f = dumbdbm.open(_fname)
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expected = sorted((k.encode("latin-1"), v) for k, v in d.items())
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got = sorted(f.items())
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self.assertEqual(expected, got)
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f.close()
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def tearDown(self):
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_delete_files()
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def setUp(self):
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_delete_files()
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if __name__ == "__main__":
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unittest.main()
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