def test_copytree(self):
src_dir_name = 'gs://gcsio-test/source/'
dest_dir_name = 'gs://gcsio-test/dest/'
file_size = 1024
paths = ['a', 'b/c', 'b/d']
for path in paths:
src_file_name = src_dir_name + path
dest_file_name = dest_dir_name + path
self._insert_random_file(self.client, src_file_name, file_size)
self.assertTrue(
gcsio.parse_gcs_path(src_file_name) in
self.client.objects.files)
self.assertFalse(
gcsio.parse_gcs_path(dest_file_name) in
self.client.objects.files)
self.gcs.copytree(src_dir_name, dest_dir_name)
for path in paths:
src_file_name = src_dir_name + path
dest_file_name = dest_dir_name + path
self.assertTrue(
gcsio.parse_gcs_path(src_file_name) in
self.client.objects.files)
self.assertTrue(
gcsio.parse_gcs_path(dest_file_name) in
self.client.objects.files)
def test_delete(self):
file_name = 'gs://gcsio-test/delete_me'
file_size = 1024
# Test deletion of non-existent file.
self.gcs.delete(file_name)
self._insert_random_file(self.client, file_name, file_size)
self.assertTrue(gcsio.parse_gcs_path(file_name) in
self.client.objects.files)
self.gcs.delete(file_name)
self.assertFalse(gcsio.parse_gcs_path(file_name) in
self.client.objects.files)
def test_delete(self):
file_name = 'gs://gcsio-test/delete_me'
file_size = 1024
# Test deletion of non-existent file.
self.gcs.delete(file_name)
self._insert_random_file(self.client, file_name, file_size)
self.assertTrue(
gcsio.parse_gcs_path(file_name) in self.client.objects.files)
self.gcs.delete(file_name)
self.assertFalse(
gcsio.parse_gcs_path(file_name) in self.client.objects.files)
def test_rename(self):
src_file_name = 'gs://gcsio-test/source'
dest_file_name = 'gs://gcsio-test/dest'
file_size = 1024
self._insert_random_file(self.client, src_file_name, file_size)
self.assertTrue(
gcsio.parse_gcs_path(src_file_name) in self.client.objects.files)
self.assertFalse(
gcsio.parse_gcs_path(dest_file_name) in self.client.objects.files)
self.gcs.rename(src_file_name, dest_file_name)
self.assertFalse(
gcsio.parse_gcs_path(src_file_name) in self.client.objects.files)
self.assertTrue(
gcsio.parse_gcs_path(dest_file_name) in self.client.objects.files)
def test_rename(self):
src_file_name = 'gs://gcsio-test/source'
dest_file_name = 'gs://gcsio-test/dest'
file_size = 1024
self._insert_random_file(self.client, src_file_name,
file_size)
self.assertTrue(gcsio.parse_gcs_path(src_file_name) in
self.client.objects.files)
self.assertFalse(gcsio.parse_gcs_path(dest_file_name) in
self.client.objects.files)
self.gcs.rename(src_file_name, dest_file_name)
self.assertFalse(gcsio.parse_gcs_path(src_file_name) in
self.client.objects.files)
self.assertTrue(gcsio.parse_gcs_path(dest_file_name) in
self.client.objects.files)
def test_copy(self):
src_file_name = 'gs://gcsio-test/source'
dest_file_name = 'gs://gcsio-test/dest'
file_size = 1024
self._insert_random_file(self.client, src_file_name, file_size)
self.assertTrue(
gcsio.parse_gcs_path(src_file_name) in self.client.objects.files)
self.assertFalse(
gcsio.parse_gcs_path(dest_file_name) in self.client.objects.files)
self.gcs.copy(src_file_name, dest_file_name)
self.assertTrue(
gcsio.parse_gcs_path(src_file_name) in self.client.objects.files)
self.assertTrue(
gcsio.parse_gcs_path(dest_file_name) in self.client.objects.files)
self.assertRaises(IOError, self.gcs.copy,
'gs://gcsio-test/non-existent',
'gs://gcsio-test/non-existent-destination')
def test_file_write(self):
file_name = 'gs://gcsio-test/write_file'
file_size = 5 * 1024 * 1024 + 2000
contents = os.urandom(file_size)
f = self.gcs.open(file_name, 'w')
f.write(contents[0:1000])
f.write(contents[1000:1024 * 1024])
f.write(contents[1024 * 1024:])
f.close()
bucket, name = gcsio.parse_gcs_path(file_name)
self.assertEqual(
self.client.objects.get_file(bucket, name).contents, contents)
def test_file_write(self):
file_name = 'gs://gcsio-test/write_file'
file_size = 5 * 1024 * 1024 + 2000
contents = os.urandom(file_size)
f = self.gcs.open(file_name, 'w')
f.write(contents[0:1000])
f.write(contents[1000:1024 * 1024])
f.write(contents[1024 * 1024:])
f.close()
bucket, name = gcsio.parse_gcs_path(file_name)
self.assertEqual(
self.client.objects.get_file(bucket, name).contents, contents)
def test_copy(self):
src_file_name = 'gs://gcsio-test/source'
dest_file_name = 'gs://gcsio-test/dest'
file_size = 1024
self._insert_random_file(self.client, src_file_name,
file_size)
self.assertTrue(gcsio.parse_gcs_path(src_file_name) in
self.client.objects.files)
self.assertFalse(gcsio.parse_gcs_path(dest_file_name) in
self.client.objects.files)
self.gcs.copy(src_file_name, dest_file_name)
self.assertTrue(gcsio.parse_gcs_path(src_file_name) in
self.client.objects.files)
self.assertTrue(gcsio.parse_gcs_path(dest_file_name) in
self.client.objects.files)
self.assertRaises(IOError, self.gcs.copy,
'gs://gcsio-test/non-existent',
'gs://gcsio-test/non-existent-destination')
def test_file_read_line(self):
file_name = 'gs://gcsio-test/read_line_file'
lines = []
# Set a small buffer size to exercise refilling the buffer.
# First line is carefully crafted so the newline falls as the last character
# of the buffer to exercise this code path.
read_buffer_size = 1024
lines.append('x' * 1023 + '\n')
for _ in range(1, 1000):
line_length = random.randint(100, 500)
line = os.urandom(line_length).replace('\n', ' ') + '\n'
lines.append(line)
contents = ''.join(lines)
file_size = len(contents)
bucket, name = gcsio.parse_gcs_path(file_name)
self.client.objects.add_file(FakeFile(bucket, name, contents, 1))
f = self.gcs.open(file_name, read_buffer_size=read_buffer_size)
# Test read of first two lines.
f.seek(0)
self.assertEqual(f.readline(), lines[0])
self.assertEqual(f.tell(), len(lines[0]))
self.assertEqual(f.readline(), lines[1])
# Test read at line boundary.
f.seek(file_size - len(lines[-1]) - 1)
self.assertEqual(f.readline(), '\n')
# Test read at end of file.
f.seek(file_size)
self.assertEqual(f.readline(), '')
# Test reads at random positions.
random.seed(0)
for _ in range(0, 10):
start = random.randint(0, file_size - 1)
line_index = 0
# Find line corresponding to start index.
chars_left = start
while True:
next_line_length = len(lines[line_index])
if chars_left - next_line_length < 0:
break
chars_left -= next_line_length
line_index += 1
f.seek(start)
self.assertEqual(f.readline(), lines[line_index][chars_left:])
def test_file_read_line(self):
file_name = 'gs://gcsio-test/read_line_file'
lines = []
# Set a small buffer size to exercise refilling the buffer.
# First line is carefully crafted so the newline falls as the last character
# of the buffer to exercise this code path.
read_buffer_size = 1024
lines.append('x' * 1023 + '\n')
for _ in range(1, 1000):
line_length = random.randint(100, 500)
line = os.urandom(line_length).replace('\n', ' ') + '\n'
lines.append(line)
contents = ''.join(lines)
file_size = len(contents)
bucket, name = gcsio.parse_gcs_path(file_name)
self.client.objects.add_file(FakeFile(bucket, name, contents, 1))
f = self.gcs.open(file_name, read_buffer_size=read_buffer_size)
# Test read of first two lines.
f.seek(0)
self.assertEqual(f.readline(), lines[0])
self.assertEqual(f.tell(), len(lines[0]))
self.assertEqual(f.readline(), lines[1])
# Test read at line boundary.
f.seek(file_size - len(lines[-1]) - 1)
self.assertEqual(f.readline(), '\n')
# Test read at end of file.
f.seek(file_size)
self.assertEqual(f.readline(), '')
# Test reads at random positions.
random.seed(0)
for _ in range(0, 10):
start = random.randint(0, file_size - 1)
line_index = 0
# Find line corresponding to start index.
chars_left = start
while True:
next_line_length = len(lines[line_index])
if chars_left - next_line_length < 0:
break
chars_left -= next_line_length
line_index += 1
f.seek(start)
self.assertEqual(f.readline(), lines[line_index][chars_left:])
def test_copytree(self):
src_dir_name = 'gs://gcsio-test/source/'
dest_dir_name = 'gs://gcsio-test/dest/'
file_size = 1024
paths = ['a', 'b/c', 'b/d']
for path in paths:
src_file_name = src_dir_name + path
dest_file_name = dest_dir_name + path
self._insert_random_file(self.client, src_file_name,
file_size)
self.assertTrue(gcsio.parse_gcs_path(src_file_name) in
self.client.objects.files)
self.assertFalse(gcsio.parse_gcs_path(dest_file_name) in
self.client.objects.files)
self.gcs.copytree(src_dir_name, dest_dir_name)
for path in paths:
src_file_name = src_dir_name + path
dest_file_name = dest_dir_name + path
self.assertTrue(gcsio.parse_gcs_path(src_file_name) in
self.client.objects.files)
self.assertTrue(gcsio.parse_gcs_path(dest_file_name) in
self.client.objects.files)
def test_context_manager(self):
# Test writing with a context manager.
file_name = 'gs://gcsio-test/context_manager_file'
file_size = 1024
contents = os.urandom(file_size)
with self.gcs.open(file_name, 'w') as f:
f.write(contents)
bucket, name = gcsio.parse_gcs_path(file_name)
self.assertEqual(
self.client.objects.get_file(bucket, name).contents, contents)
# Test reading with a context manager.
with self.gcs.open(file_name) as f:
self.assertEqual(f.read(), contents)
# Test that exceptions are not swallowed by the context manager.
with self.assertRaises(ZeroDivisionError):
with self.gcs.open(file_name) as f:
f.read(0 / 0)
def test_context_manager(self):
# Test writing with a context manager.
file_name = 'gs://gcsio-test/context_manager_file'
file_size = 1024
contents = os.urandom(file_size)
with self.gcs.open(file_name, 'w') as f:
f.write(contents)
bucket, name = gcsio.parse_gcs_path(file_name)
self.assertEqual(
self.client.objects.get_file(bucket, name).contents, contents)
# Test reading with a context manager.
with self.gcs.open(file_name) as f:
self.assertEqual(f.read(), contents)
# Test that exceptions are not swallowed by the context manager.
with self.assertRaises(ZeroDivisionError):
with self.gcs.open(file_name) as f:
f.read(0 / 0)
def _insert_random_file(self, client, path, size, generation=1):
bucket, name = gcsio.parse_gcs_path(path)
f = FakeFile(bucket, name, os.urandom(size), generation)
client.objects.add_file(f)
return f
def test_gcs_path(self):
self.assertEqual(gcsio.parse_gcs_path('gs://bucket/name'),
('bucket', 'name'))
self.assertEqual(gcsio.parse_gcs_path('gs://bucket/name/sub'),
('bucket', 'name/sub'))
def test_gcs_path(self):
self.assertEqual(
gcsio.parse_gcs_path('gs://bucket/name'), ('bucket', 'name'))
self.assertEqual(
gcsio.parse_gcs_path('gs://bucket/name/sub'), ('bucket', 'name/sub'))
def _insert_random_file(self, client, path, size, generation=1): bucket, name = gcsio.parse_gcs_path(path) f = FakeFile(bucket, name, os.urandom(size), generation) client.objects.add_file(f) return f