Lib/test/test_dbm_gnu.py - platform/external/python/cpython3 - Git at Google

 from test import support
 gdbm = support.import_module("dbm.gnu") #skip if not supported
 import unittest
 import os
 from test.support import TESTFN, TESTFN_NONASCII, unlink


 filename = TESTFN

 class TestGdbm(unittest.TestCase):
     def setUp(self):
         self.g = None

     def tearDown(self):
         if self.g is not None:
             self.g.close()
         unlink(filename)

     def test_key_methods(self):
         self.g = gdbm.open(filename, 'c')
         self.assertEqual(self.g.keys(), [])
         self.g['a'] = 'b'
         self.g['12345678910'] = '019237410982340912840198242'
         self.g[b'bytes'] = b'data'
         key_set = set(self.g.keys())
         self.assertEqual(key_set, set([b'a', b'bytes', b'12345678910']))
         self.assertIn('a', self.g)
         self.assertIn(b'a', self.g)
         self.assertEqual(self.g[b'bytes'], b'data')
         key = self.g.firstkey()
         while key:
             self.assertIn(key, key_set)
             key_set.remove(key)
             key = self.g.nextkey(key)
         # get() and setdefault() work as in the dict interface
         self.assertEqual(self.g.get(b'a'), b'b')
         self.assertIsNone(self.g.get(b'xxx'))
         self.assertEqual(self.g.get(b'xxx', b'foo'), b'foo')
         with self.assertRaises(KeyError):
             self.g['xxx']
         self.assertEqual(self.g.setdefault(b'xxx', b'foo'), b'foo')
         self.assertEqual(self.g[b'xxx'], b'foo')

     def test_error_conditions(self):
         # Try to open a non-existent database.
         unlink(filename)
         self.assertRaises(gdbm.error, gdbm.open, filename, 'r')
         # Try to access a closed database.
         self.g = gdbm.open(filename, 'c')
         self.g.close()
         self.assertRaises(gdbm.error, lambda: self.g['a'])
         # try pass an invalid open flag
         self.assertRaises(gdbm.error, lambda: gdbm.open(filename, 'rx').close())

     def test_flags(self):
         # Test the flag parameter open() by trying all supported flag modes.
         all = set(gdbm.open_flags)
         # Test standard flags (presumably "crwn").
         modes = all - set('fsu')
         for mode in sorted(modes):  # put "c" mode first
             self.g = gdbm.open(filename, mode)
             self.g.close()

         # Test additional flags (presumably "fsu").
         flags = all - set('crwn')
         for mode in modes:
             for flag in flags:
                 self.g = gdbm.open(filename, mode + flag)
                 self.g.close()

     def test_reorganize(self):
         self.g = gdbm.open(filename, 'c')
         size0 = os.path.getsize(filename)

         self.g['x'] = 'x' * 10000
         size1 = os.path.getsize(filename)
         self.assertTrue(size0 < size1)

         del self.g['x']
         # 'size' is supposed to be the same even after deleting an entry.
         self.assertEqual(os.path.getsize(filename), size1)

         self.g.reorganize()
         size2 = os.path.getsize(filename)
         self.assertTrue(size1 > size2 >= size0)

     def test_context_manager(self):
         with gdbm.open(filename, 'c') as db:
             db["gdbm context manager"] = "context manager"

         with gdbm.open(filename, 'r') as db:
             self.assertEqual(list(db.keys()), [b"gdbm context manager"])

         with self.assertRaises(gdbm.error) as cm:
             db.keys()
         self.assertEqual(str(cm.exception),
                          "GDBM object has already been closed")

     def test_bytes(self):
         with gdbm.open(filename, 'c') as db:
             db[b'bytes key \xbd'] = b'bytes value \xbd'
         with gdbm.open(filename, 'r') as db:
             self.assertEqual(list(db.keys()), [b'bytes key \xbd'])
             self.assertTrue(b'bytes key \xbd' in db)
             self.assertEqual(db[b'bytes key \xbd'], b'bytes value \xbd')

     def test_unicode(self):
         with gdbm.open(filename, 'c') as db:
             db['Unicode key \U0001f40d'] = 'Unicode value \U0001f40d'
         with gdbm.open(filename, 'r') as db:
             self.assertEqual(list(db.keys()), ['Unicode key \U0001f40d'.encode()])
             self.assertTrue('Unicode key \U0001f40d'.encode() in db)
             self.assertTrue('Unicode key \U0001f40d' in db)
             self.assertEqual(db['Unicode key \U0001f40d'.encode()],
                              'Unicode value \U0001f40d'.encode())
             self.assertEqual(db['Unicode key \U0001f40d'],
                              'Unicode value \U0001f40d'.encode())

     @unittest.skipUnless(TESTFN_NONASCII,
                          'requires OS support of non-ASCII encodings')
     def test_nonascii_filename(self):
         filename = TESTFN_NONASCII
         self.addCleanup(unlink, filename)
         with gdbm.open(filename, 'c') as db:
             db[b'key'] = b'value'
         self.assertTrue(os.path.exists(filename))
         with gdbm.open(filename, 'r') as db:
             self.assertEqual(list(db.keys()), [b'key'])
             self.assertTrue(b'key' in db)
             self.assertEqual(db[b'key'], b'value')


 if __name__ == '__main__':
     unittest.main()
	from test import support
	gdbm = support.import_module("dbm.gnu") #skip if not supported
	import unittest
	import os
	from test.support import TESTFN, TESTFN_NONASCII, unlink


	filename = TESTFN

	class TestGdbm(unittest.TestCase):
	def setUp(self):
	self.g = None

	def tearDown(self):
	if self.g is not None:
	self.g.close()
	unlink(filename)

	def test_key_methods(self):
	self.g = gdbm.open(filename, 'c')
	self.assertEqual(self.g.keys(), [])
	self.g['a'] = 'b'
	self.g['12345678910'] = '019237410982340912840198242'
	self.g[b'bytes'] = b'data'
	key_set = set(self.g.keys())
	self.assertEqual(key_set, set([b'a', b'bytes', b'12345678910']))
	self.assertIn('a', self.g)
	self.assertIn(b'a', self.g)
	self.assertEqual(self.g[b'bytes'], b'data')
	key = self.g.firstkey()
	while key:
	self.assertIn(key, key_set)
	key_set.remove(key)
	key = self.g.nextkey(key)
	# get() and setdefault() work as in the dict interface
	self.assertEqual(self.g.get(b'a'), b'b')
	self.assertIsNone(self.g.get(b'xxx'))
	self.assertEqual(self.g.get(b'xxx', b'foo'), b'foo')
	with self.assertRaises(KeyError):
	self.g['xxx']
	self.assertEqual(self.g.setdefault(b'xxx', b'foo'), b'foo')
	self.assertEqual(self.g[b'xxx'], b'foo')

	def test_error_conditions(self):
	# Try to open a non-existent database.
	unlink(filename)
	self.assertRaises(gdbm.error, gdbm.open, filename, 'r')
	# Try to access a closed database.
	self.g = gdbm.open(filename, 'c')
	self.g.close()
	self.assertRaises(gdbm.error, lambda: self.g['a'])
	# try pass an invalid open flag
	self.assertRaises(gdbm.error, lambda: gdbm.open(filename, 'rx').close())

	def test_flags(self):
	# Test the flag parameter open() by trying all supported flag modes.
	all = set(gdbm.open_flags)
	# Test standard flags (presumably "crwn").
	modes = all - set('fsu')
	for mode in sorted(modes): # put "c" mode first
	self.g = gdbm.open(filename, mode)
	self.g.close()

	# Test additional flags (presumably "fsu").
	flags = all - set('crwn')
	for mode in modes:
	for flag in flags:
	self.g = gdbm.open(filename, mode + flag)
	self.g.close()

	def test_reorganize(self):
	self.g = gdbm.open(filename, 'c')
	size0 = os.path.getsize(filename)

	self.g['x'] = 'x' * 10000
	size1 = os.path.getsize(filename)
	self.assertTrue(size0 < size1)

	del self.g['x']
	# 'size' is supposed to be the same even after deleting an entry.
	self.assertEqual(os.path.getsize(filename), size1)

	self.g.reorganize()
	size2 = os.path.getsize(filename)
	self.assertTrue(size1 > size2 >= size0)

	def test_context_manager(self):
	with gdbm.open(filename, 'c') as db:
	db["gdbm context manager"] = "context manager"

	with gdbm.open(filename, 'r') as db:
	self.assertEqual(list(db.keys()), [b"gdbm context manager"])

	with self.assertRaises(gdbm.error) as cm:
	db.keys()
	self.assertEqual(str(cm.exception),
	"GDBM object has already been closed")

	def test_bytes(self):
	with gdbm.open(filename, 'c') as db:
	db[b'bytes key \xbd'] = b'bytes value \xbd'
	with gdbm.open(filename, 'r') as db:
	self.assertEqual(list(db.keys()), [b'bytes key \xbd'])
	self.assertTrue(b'bytes key \xbd' in db)
	self.assertEqual(db[b'bytes key \xbd'], b'bytes value \xbd')

	def test_unicode(self):
	with gdbm.open(filename, 'c') as db:
	db['Unicode key \U0001f40d'] = 'Unicode value \U0001f40d'
	with gdbm.open(filename, 'r') as db:
	self.assertEqual(list(db.keys()), ['Unicode key \U0001f40d'.encode()])
	self.assertTrue('Unicode key \U0001f40d'.encode() in db)
	self.assertTrue('Unicode key \U0001f40d' in db)
	self.assertEqual(db['Unicode key \U0001f40d'.encode()],
	'Unicode value \U0001f40d'.encode())
	self.assertEqual(db['Unicode key \U0001f40d'],
	'Unicode value \U0001f40d'.encode())

	@unittest.skipUnless(TESTFN_NONASCII,
	'requires OS support of non-ASCII encodings')
	def test_nonascii_filename(self):
	filename = TESTFN_NONASCII
	self.addCleanup(unlink, filename)
	with gdbm.open(filename, 'c') as db:
	db[b'key'] = b'value'
	self.assertTrue(os.path.exists(filename))
	with gdbm.open(filename, 'r') as db:
	self.assertEqual(list(db.keys()), [b'key'])
	self.assertTrue(b'key' in db)
	self.assertEqual(db[b'key'], b'value')


	if __name__ == '__main__':
	unittest.main()