def test_Serialized():
s = Serialized(*serialize(123))
t = Serialized(*serialize((1, 2)))
u = Serialized(*serialize(123))
assert s == u
assert not (s != u)
assert s != t
assert not (s == t)
def test_raise_error_on_serialize_write_permissions():
with tmpfile() as fn:
with h5py.File(fn, mode='a') as f:
x = f.create_dataset('/x', shape=(2, 2), dtype='i4')
f.flush()
with pytest.raises(TypeError):
deserialize(*serialize(x))
with pytest.raises(TypeError):
deserialize(*serialize(f))
def test_errors():
msg = {'data': {'foo': to_serialize(inc)}}
header, frames = serialize(msg, serializers=['msgpack', 'pickle'])
assert header['serializer'] == 'pickle'
header, frames = serialize(msg, serializers=['msgpack'])
assert header['serializer'] == 'error'
with pytest.raises(TypeError):
serialize(msg, serializers=['msgpack'], on_error='raise')
def test_serialize_deserialize_sparse():
x = np.random.random((2, 3, 4, 5))
x[x < 0.8] = 0
y = sparse.COO(x)
header, frames = serialize(y)
assert 'sparse' in header['type']
z = deserialize(*serialize(y))
assert_allclose(y.data, z.data)
assert_allclose(y.coords, z.coords)
assert_allclose(y.todense(), z.todense())
def test_compression_takes_advantage_of_itemsize():
pytest.importorskip('lz4')
blosc = pytest.importorskip('blosc')
x = np.arange(1000000, dtype='i8')
assert (len(blosc.compress(x.data, typesize=8))
< len(blosc.compress(x.data, typesize=1)))
_, a = serialize(x)
aa = [maybe_compress(frame)[1] for frame in a]
_, b = serialize(x.view('u1'))
bb = [maybe_compress(frame)[1] for frame in b]
assert sum(map(nbytes, aa)) < sum(map(nbytes, bb))
def test_dumps_serialize_numpy(x):
header, frames = serialize(x)
if 'compression' in header:
frames = decompress(header, frames)
y = deserialize(header, frames)
np.testing.assert_equal(x, y)
def test_dumps_serialize_numpy(df):
header, frames = serialize(df)
if 'compression' in header:
frames = decompress(header, frames)
df2 = deserialize(header, frames)
assert_eq(df, df2)
def check_deserialize_roundtrip(addr):
"""
Sanity check round-tripping with "deserialize" on and off.
"""
# Test with long bytestrings, large enough to be transferred
# as a separate payload
_uncompressible = os.urandom(1024 ** 2) * 4 # end size: 4 MB
msg = {'op': 'update',
'x': _uncompressible,
'to_ser': [to_serialize(_uncompressible)],
'ser': Serialized(*serialize(_uncompressible)),
}
for should_deserialize in (True, False):
a, b = yield get_comm_pair(addr, deserialize=should_deserialize)
yield a.write(msg)
got = yield b.read()
yield b.write(got)
got = yield a.read()
assert sorted(got) == sorted(msg)
for k in ('op', 'x'):
assert got[k] == msg[k]
if should_deserialize:
assert isinstance(got['to_ser'][0], (bytes, bytearray))
assert isinstance(got['ser'], (bytes, bytearray))
else:
assert isinstance(got['to_ser'][0], (to_serialize, Serialized))
assert isinstance(got['ser'], Serialized)
def test_dumps_serialize():
for x in [123, [1, 2, 3]]:
header, frames = serialize(x)
assert not header
assert len(frames) == 1
result = deserialize(header, frames)
assert result == x
x = MyObj(123)
header, frames = serialize(x)
assert header['type']
assert len(frames) == 1
result = deserialize(header, frames)
assert result.data == x.data
def test_dont_compress_uncompressable_data():
blosc = pytest.importorskip('blosc')
x = np.random.randint(0, 255, size=100000).astype('uint8')
header, [data] = serialize(x)
assert 'compression' not in header
assert data == x.data
x = np.ones(1000000)
header, [data] = serialize(x)
assert header['compression'] == ['blosc']
assert data != x.data
x = np.ones(100)
header, [data] = serialize(x)
assert 'compression' not in header
if isinstance(data, memoryview):
assert data.obj.ctypes.data == x.ctypes.data
def test_serialize_deserialize_sparse_large():
n = 100000000
x = np.arange(n)
data = np.ones(n, dtype=np.int16)
s = sparse.COO([x], data)
header, frames = serialize(s)
s2 = deserialize(header, frames)
def test_serialize_deserialize_variable():
with tmpfile() as fn:
create_test_dataset(fn)
with netCDF4.Dataset(fn, mode='r') as f:
x = f.variables['x']
y = deserialize(*serialize(x))
assert isinstance(y, netCDF4.Variable)
assert y.dimensions == ('x',)
assert (x.dtype == y.dtype)
assert (x[:] == y[:]).all()
def test_serialize():
x = np.ones((5, 5))
header, frames = serialize(x)
assert header['type']
assert len(frames) == 1
if 'compression' in header:
frames = decompress(header, frames)
result = deserialize(header, frames)
assert (result == x).all()
def test_serialize_deserialize_file():
with tmpfile() as fn:
with h5py.File(fn, mode='a') as f:
f.create_dataset('/x', shape=(2, 2), dtype='i4')
with h5py.File(fn, mode='r') as f:
g = deserialize(*serialize(f))
assert f.filename == g.filename
assert isinstance(g, h5py.File)
assert f.mode == g.mode
assert g['x'].shape == (2, 2)
def test_serialize_deserialize_dataset():
with tmpfile() as fn:
with h5py.File(fn, mode='a') as f:
x = f.create_dataset('/group1/group2/x', shape=(2, 2), dtype='i4')
with h5py.File(fn, mode='r') as f:
x = f['group1/group2/x']
y = deserialize(*serialize(x))
assert isinstance(y, h5py.Dataset)
assert x.name == y.name
assert x.file.filename == y.file.filename
assert (x[:] == y[:]).all()
def test_serialize_deserialize_dataset():
with tmpfile() as fn:
create_test_dataset(fn)
with netCDF4.Dataset(fn, mode='r') as f:
g = deserialize(*serialize(f))
assert f.filepath() == g.filepath()
assert isinstance(g, netCDF4.Dataset)
assert g.variables['x'].dimensions == ('x',)
assert g.variables['x'].dtype == np.int32
assert (g.variables['x'][:] == np.arange(3)).all()
def test_basic():
est = sklearn.linear_model.LinearRegression()
est.fit([[0, 0], [1, 1], [2, 2]], [0, 1, 2])
header, frames = serialize(est)
assert header['serializer'] == 'dask'
est2 = deserialize(header, frames)
inp = [[2, 3], [-1, 3]]
assert (est.predict(inp) == est2.predict(inp)).all()
def test_serialize_raises():
class Foo(object):
pass
@dask_serialize.register(Foo)
def dumps(f):
raise Exception("Hello-123")
with pytest.raises(Exception) as info:
deserialize(*serialize(Foo()))
assert 'Hello-123' in str(info.value)
def _(obj):
headers = []
all_frames = []
for part in obj.parts:
header, frames = serialize(part)
header["frame-start-stop"] = [len(all_frames), len(all_frames) + len(frames)]
headers.append(header)
all_frames.extend(frames)
header = {"sub-headers": headers, "is-cuda": obj.is_cuda, "main-header": obj.header}
return header, all_frames
def test_serialize_raises():
class Foo(object):
pass
@dask_serialize.register(Foo)
def dumps(f):
raise Exception("Hello-123")
with pytest.raises(Exception) as info:
deserialize(*serialize(Foo()))
assert "Hello-123" in str(info.value)
def test_serialize_deserialize_group():
with tmpfile() as fn:
with h5py.File(fn, mode="a") as f:
f.create_dataset("/group1/group2/x", shape=(2, 2), dtype="i4")
with h5py.File(fn, mode="r") as f:
group = f["/group1/group2"]
group2 = deserialize(*serialize(group))
assert isinstance(group2, h5py.Group)
assert group.file.filename == group2.file.filename
assert group2["x"].shape == (2, 2)
def test_compression_numpy_list():
class MyObj:
pass
@dask_serialize.register(MyObj)
def _(x):
header = {"compression": [False]}
frames = [b""]
return header, frames
header, frames = serialize([MyObj(), MyObj()])
assert header["compression"] == [False, False]
def test_dumps_serialize_numpy(x):
header, frames = serialize(x)
if "compression" in header:
frames = decompress(header, frames)
buffer_interface = memoryview
for frame in frames:
assert isinstance(frame, (bytes, buffer_interface))
y = deserialize(header, frames)
np.testing.assert_equal(x, y)
if x.flags.c_contiguous or x.flags.f_contiguous:
assert x.strides == y.strides
def test_serialize_cupy(shape, dtype, order, serializers):
x = cupy.arange(numpy.product(shape), dtype=dtype)
x = cupy.ndarray(shape, dtype=x.dtype, memptr=x.data, order=order)
header, frames = serialize(x, serializers=serializers)
y = deserialize(header, frames, deserializers=serializers)
if serializers[0] == "cuda":
assert all(hasattr(f, "__cuda_array_interface__") for f in frames)
elif serializers[0] == "dask":
assert all(isinstance(f, memoryview) for f in frames)
assert (x == y).all()
def test_serialize_deserialize_group():
with tmpfile() as fn:
with h5py.File(fn, mode='a') as f:
f.create_dataset('/group1/group2/x', shape=(2, 2), dtype='i4')
with h5py.File(fn, mode='r') as f:
group = f['/group1/group2']
group2 = deserialize(*serialize(group))
assert isinstance(group2, h5py.Group)
assert group.file.filename == group2.file.filename
assert group2['x'].shape == (2, 2)
def test_serialize_deserialize_group():
with tmpfile() as fn:
with h5py.File(fn, mode='a') as f:
f.create_dataset('/group1/group2/x', shape=(2, 2), dtype='i4')
with h5py.File(fn, mode='r') as f:
group = f['/group1/group2']
group2 = deserialize(*serialize(group))
assert isinstance(group2, h5py.Group)
assert group.file.filename == group2.file.filename
assert group2['x'].shape == (2, 2)
def test_dumps_serialize_numpy(x):
header, frames = serialize(x)
if 'compression' in header:
frames = decompress(header, frames)
buffer_interface = buffer if PY2 else memoryview # noqa: F821
for frame in frames:
assert isinstance(frame, (bytes, buffer_interface))
y = deserialize(header, frames)
np.testing.assert_equal(x, y)
if x.flags.c_contiguous or x.flags.f_contiguous:
assert x.strides == y.strides
def test_dumps_serialize_numpy_custom_dtype():
from six.moves import builtins
test_rational = pytest.importorskip('numpy.core.test_rational')
rational = test_rational.rational
try:
builtins.rational = rational # Work around https://github.com/numpy/numpy/issues/9160
x = np.array([1], dtype=rational)
header, frames = serialize(x)
y = deserialize(header, frames)
np.testing.assert_equal(x, y)
finally:
del builtins.rational
def test_serialize_cupy(dtype):
ary = np.arange(100, dtype=dtype)
x = cuda.to_device(ary)
header, frames = serialize(x, serializers=("cuda", "dask", "pickle"))
y = deserialize(header,
frames,
deserializers=("cuda", "dask", "pickle", "error"))
hx = np.empty_like(ary)
hy = np.empty_like(ary)
x.copy_to_host(hx)
y.copy_to_host(hy)
assert (hx == hy).all()
def test_memmap():
with tmpfile('npy') as fn:
with open(fn, 'wb') as f: # touch file
pass
x = np.memmap(fn, shape=(5, 5), dtype='i4', mode='readwrite')
x[:] = 5
header, frames = serialize(x)
if 'compression' in header:
frames = decompress(header, frames)
y = deserialize(header, frames)
np.testing.assert_equal(x, y)
def test_serialize_deserialize_group():
with tmpfile() as fn:
create_test_dataset(fn)
with netCDF4.Dataset(fn, mode='r') as f:
for path in ['group', 'group/group1']:
g = f[path]
h = deserialize(*serialize(g))
assert isinstance(h, netCDF4.Group)
assert h.name == g.name
assert list(g.groups) == list(h.groups)
assert list(g.variables) == list(h.variables)
vars = [f.variables['x'],
f['group'].variables['y'],
f['group/group1'].variables['z']]
for x in vars:
y = deserialize(*serialize(x))
assert isinstance(y, netCDF4.Variable)
assert y.dimensions == ('x',)
assert (x.dtype == y.dtype)
assert (x[:] == y[:]).all()
def test_serialize_scipy_sparse(sparse_type, dtype):
a = numpy.array([[0, 1, 0], [2, 0, 3], [0, 4, 0]], dtype=dtype)
anz = a.nonzero()
acoo = scipy_sparse.coo_matrix((a[anz], anz))
asp = sparse_type(acoo)
header, frames = serialize(asp, serializers=["dask"])
asp2 = deserialize(header, frames)
a2 = asp2.todense()
assert (a == a2).all()
def test_memmap():
with tmpfile('npy') as fn:
with open(fn, 'wb') as f: # touch file
pass
x = np.memmap(fn, shape=(5, 5), dtype='i4', mode='readwrite')
x[:] = 5
header, frames = serialize(x)
if 'compression' in header:
frames = decompress(header, frames)
y = deserialize(header, frames)
np.testing.assert_equal(x, y)
def test_serialize_deserialize_group():
with tmpfile() as fn:
create_test_dataset(fn)
with netCDF4.Dataset(fn, mode='r') as f:
for path in ['group', 'group/group1']:
g = f[path]
h = deserialize(*serialize(g))
assert isinstance(h, netCDF4.Group)
assert h.name == g.name
assert list(g.groups) == list(h.groups)
assert list(g.variables) == list(h.variables)
vars = [f.variables['x'],
f['group'].variables['y'],
f['group/group1'].variables['z']]
for x in vars:
y = deserialize(*serialize(x))
assert isinstance(y, netCDF4.Variable)
assert y.dimensions == ('x',)
assert (x.dtype == y.dtype)
assert (x[:] == y[:]).all()
def test_dumps_serialize_numpy_custom_dtype():
from six.moves import builtins
test_rational = pytest.importorskip('numpy.core.test_rational')
rational = test_rational.rational
try:
builtins.rational = rational # Work around https://github.com/numpy/numpy/issues/9160
x = np.array([1], dtype=rational)
header, frames = serialize(x)
y = deserialize(header, frames)
np.testing.assert_equal(x, y)
finally:
del builtins.rational
def test_serialize_bytestrings():
for b in (b"123", bytearray(b"4567")):
header, frames = serialize(b)
assert frames[0] is b
bb = deserialize(header, frames)
assert type(bb) == type(b)
assert bb == b
bb = deserialize(header, list(map(memoryview, frames)))
assert type(bb) == type(b)
assert bb == b
bb = deserialize(header, [b"", *frames])
assert type(bb) == type(b)
assert bb == b
def test_serialize_cupy_from_numba(dtype):
numba = pytest.importorskip("numba")
np = pytest.importorskip("numpy")
size = 10
x_np = np.arange(size, dtype=dtype)
x = numba.cuda.to_device(x_np)
header, frames = serialize(x, serializers=("cuda", "dask", "pickle"))
header["type-serialized"] = pickle.dumps(cupy.ndarray)
y = deserialize(header, frames, deserializers=("cuda", "dask", "pickle", "error"))
assert (x_np == cupy.asnumpy(y)).all()
def test_memmap():
with tmpfile("npy") as fn:
with open(fn, "wb") as f: # touch file
pass
x = np.memmap(fn, shape=(5, 5), dtype="i4", mode="readwrite")
x[:] = 5
header, frames = serialize(x)
if "compression" in header:
frames = decompress(header, frames)
y = deserialize(header, frames)
np.testing.assert_equal(x, y)
def test_serialize_datetime():
# Make frame with datetime column
df = pd.DataFrame({
'x': np.random.randint(0, 5, size=20),
'y': np.random.normal(size=20)
})
ts = np.arange(0, len(df), dtype=np.dtype('datetime64[ms]'))
df['timestamp'] = ts
gdf = cudf.DataFrame.from_pandas(df)
# (De)serialize roundtrip
recreated = deserialize(*serialize(gdf))
# Check
pd.util.testing.assert_frame_equal(recreated.to_pandas(), df)
def test_serialize_numba(dtype):
if not cuda.is_available():
pytest.skip("CUDA is not available")
ary = np.arange(100, dtype=dtype)
x = cuda.to_device(ary)
header, frames = serialize(x, serializers=("cuda", "dask", "pickle"))
y = deserialize(header, frames, deserializers=("cuda", "dask", "pickle", "error"))
hx = np.empty_like(ary)
hy = np.empty_like(ary)
x.copy_to_host(hx)
y.copy_to_host(hy)
assert (hx == hy).all()
def test_nested_deserialize():
x = {'op': 'update',
'x': [to_serialize(123), to_serialize(456), 789],
'y': {'a': ['abc', Serialized(*serialize('def'))],
'b': b'ghi'}
}
x_orig = copy.deepcopy(x)
assert nested_deserialize(x) == {'op': 'update',
'x': [123, 456, 789],
'y': {'a': ['abc', 'def'],
'b': b'ghi'}
}
assert x == x_orig # x wasn't mutated
def test_nested_deserialize():
x = {'op': 'update',
'x': [to_serialize(123), to_serialize(456), 789],
'y': {'a': ['abc', Serialized(*serialize('def'))],
'b': b'ghi'}
}
x_orig = copy.deepcopy(x)
assert nested_deserialize(x) == {'op': 'update',
'x': [123, 456, 789],
'y': {'a': ['abc', 'def'],
'b': b'ghi'}
}
assert x == x_orig # x wasn't mutated
def test_nested_deserialize():
x = {
"op": "update",
"x": [to_serialize(123), to_serialize(456), 789],
"y": {"a": ["abc", Serialized(*serialize("def"))], "b": b"ghi"},
}
x_orig = copy.deepcopy(x)
assert nested_deserialize(x) == {
"op": "update",
"x": [123, 456, 789],
"y": {"a": ["abc", "def"], "b": b"ghi"},
}
assert x == x_orig # x wasn't mutated
def test_malicious_exception():
class BadException(Exception):
def __setstate__(self):
return Exception("Sneaky deserialization code")
class MyClass(object):
def __getstate__(self):
raise BadException()
obj = MyClass()
header, frames = serialize(obj, serializers=[])
with pytest.raises(Exception) as info:
deserialize(header, frames)
assert "Sneaky" not in str(info.value)
assert "MyClass" in str(info.value)
header, frames = serialize(obj, serializers=['pickle'])
with pytest.raises(Exception) as info:
deserialize(header, frames)
assert "Sneaky" not in str(info.value)
assert "BadException" in str(info.value)
def test_serialize_numba(shape, dtype, order):
if not cuda.is_available():
pytest.skip("CUDA is not available")
ary = np.arange(np.product(shape), dtype=dtype)
ary = np.ndarray(shape, dtype=ary.dtype, buffer=ary.data, order=order)
x = cuda.to_device(ary)
header, frames = serialize(x, serializers=("cuda", "dask", "pickle"))
y = deserialize(header, frames, deserializers=("cuda", "dask", "pickle", "error"))
hx = np.empty_like(ary)
hy = np.empty_like(ary)
x.copy_to_host(hx)
y.copy_to_host(hy)
assert (hx == hy).all()
def test_serialize_deserialize_group():
with tmpfile() as fn:
create_test_dataset(fn)
with netCDF4.Dataset(fn, mode="r") as f:
for path in ["group", "group/group1"]:
g = f[path]
h = deserialize(*serialize(g))
assert isinstance(h, netCDF4.Group)
assert h.name == g.name
assert list(g.groups) == list(h.groups)
assert list(g.variables) == list(h.variables)
vars = [
f.variables["x"],
f["group"].variables["y"],
f["group/group1"].variables["z"],
]
for x in vars:
y = deserialize(*serialize(x))
assert isinstance(y, netCDF4.Variable)
assert y.dimensions == ("x", )
assert x.dtype == y.dtype
assert (x[:] == y[:]).all()
def test_grad(requires_grad):
x = np.arange(10)
t = torch.tensor(x, dtype=torch.float, requires_grad=requires_grad)
if requires_grad:
t.grad = torch.zeros_like(t) + 1
t2 = deserialize(*serialize(t))
assert t2.requires_grad is requires_grad
assert t.requires_grad is requires_grad
assert np.allclose(t2.detach().numpy(), x)
if requires_grad:
assert np.allclose(t2.grad.numpy(), 1)
def test_malicious_exception():
class BadException(Exception):
def __setstate__(self):
return Exception("Sneaky deserialization code")
class MyClass:
def __getstate__(self):
raise BadException()
obj = MyClass()
header, frames = serialize(obj, serializers=[])
with pytest.raises(Exception) as info:
deserialize(header, frames)
assert "Sneaky" not in str(info.value)
assert "MyClass" in str(info.value)
header, frames = serialize(obj, serializers=["pickle"])
with pytest.raises(Exception) as info:
deserialize(header, frames)
assert "Sneaky" not in str(info.value)
assert "BadException" in str(info.value)
def test_serialize_deserialize_model():
model = keras.models.Sequential()
model.add(keras.layers.Dense(5, input_dim=3))
model.add(keras.layers.Dense(2))
model.compile(optimizer='sgd', loss='mse')
x = np.random.random((1, 3))
y = np.random.random((1, 2))
model.train_on_batch(x, y)
loaded = deserialize(*serialize(model))
assert_allclose(loaded.predict(x), model.predict(x))
data = {'model': to_serialize(model)}
frames = dumps(data)
result = loads(frames)
assert_allclose(result['model'].predict(x), model.predict(x))
def test_serialize_deserialize_model():
model = keras.models.Sequential()
model.add(keras.layers.Dense(5, input_dim=3))
model.add(keras.layers.Dense(2))
model.compile(optimizer='sgd', loss='mse')
x = np.random.random((1, 3))
y = np.random.random((1, 2))
model.train_on_batch(x, y)
loaded = deserialize(*serialize(model))
assert_allclose(loaded.predict(x), model.predict(x))
data = {'model': to_serialize(model)}
frames = dumps(data)
result = loads(frames)
assert_allclose(result['model'].predict(x), model.predict(x))
def test_serialize_writeable_array_readonly_base_object():
# Regression test for https://github.com/dask/distributed/issues/3252
x = np.arange(3)
# Create array which doesn't own it's own memory
y = np.broadcast_to(x, (3, 3))
# Make y writeable and it's base object (x) read-only
y.setflags(write=True)
x.setflags(write=False)
# Serialize / deserialize y
z = deserialize(*serialize(y))
np.testing.assert_equal(z, y)
# Ensure z and y have the same flags (including WRITEABLE)
assert z.flags == y.flags
def test_raw_file_distributed_serializable(self):
from distributed.protocol import deserialize
from distributed.protocol import serialize
# Arrange
fs = fsspec.filesystem("file")
path = TEST_DATA_DIR + "/betfair/1.166811431.bz2"
r = RawFile(open_file=fs.open(path=path, compression="bz2"))
# Act
result1: RawFile = deserialize(*serialize(r))
# Assert
assert result1.open_file.fs == r.open_file.fs
assert result1.open_file.path == r.open_file.path
assert result1.block_size == r.block_size
assert result1.open_file.compression == "bz2"
def test_serialize_cupy_from_rmm(size):
np = pytest.importorskip("numpy")
rmm = pytest.importorskip("rmm")
x_np = np.arange(size, dtype="u1")
x_np_desc = x_np.__array_interface__
(x_np_ptr, _) = x_np_desc["data"]
(x_np_size,) = x_np_desc["shape"]
x = rmm.DeviceBuffer(ptr=x_np_ptr, size=x_np_size)
header, frames = serialize(x, serializers=("cuda", "dask", "pickle"))
header["type-serialized"] = pickle.dumps(cupy.ndarray)
y = deserialize(header, frames, deserializers=("cuda", "dask", "pickle", "error"))
assert (x_np == cupy.asnumpy(y)).all()
def test_serialize_deserialize_model():
from numpy.testing import assert_allclose
model = keras.models.Sequential()
model.add(keras.layers.Dense(5, input_dim=3))
model.add(keras.layers.Dense(2))
model.compile(optimizer="sgd", loss="mse")
x = np.random.random((1, 3))
y = np.random.random((1, 2))
model.train_on_batch(x, y)
loaded = deserialize(*serialize(model))
assert_allclose(loaded.predict(x), model.predict(x))
data = {"model": to_serialize(model)}
frames = dumps(data)
result = loads(frames)
assert_allclose(result["model"].predict(x), model.predict(x))
def test_serialize_rmm_device_buffer(size, serializers):
if not hasattr(rmm, "DeviceBuffer"):
pytest.skip("RMM pre-0.11.0 does not have DeviceBuffer")
x_np = numpy.arange(size, dtype="u1")
x = rmm.DeviceBuffer(size=size)
cuda.to_device(x_np, to=cuda.as_cuda_array(x))
header, frames = serialize(x, serializers=serializers)
y = deserialize(header, frames, deserializers=serializers)
y_np = y.copy_to_host()
if serializers[0] == "cuda":
assert all(hasattr(f, "__cuda_array_interface__") for f in frames)
elif serializers[0] == "dask":
assert all(isinstance(f, memoryview) for f in frames)
assert (x_np == y_np).all()
async def _test_round_trip_tcp(model: TreeliteModel):
client, server = await get_comm_pair('tcp://localhost')
header, frames = serialize(model)
print('Serialized model to Python buffer frames')
msg = (header, frames)
await client.write(msg)
received_msg = await server.read()
header, frames = received_msg
received_model = deserialize(header, frames)
print(f'Deserialized model from Python buffer frames')
assert treelite2bytes(model) == treelite2bytes(received_model)
print('Round trip preserved all bytes\n')
await client.close()
await server.close()
def test_empty():
e = Empty()
e2 = deserialize(*serialize(e))
assert isinstance(e2, Empty)
def test_serialize_bytes():
b = b'123'
header, frames = serialize(b)
assert frames[0] is b
def test_roundtrip(obj):
# Test that the serialize/deserialize functions actually
# work independent of distributed
header, frames = serialize(obj)
new_obj = deserialize(header, frames)
assert obj.equals(new_obj)
def check_deserialize(addr):
"""
Check the "deserialize" flag on connect() and listen().
"""
# Test with Serialize and Serialized objects
msg = {'op': 'update',
'x': b'abc',
'to_ser': [to_serialize(123)],
'ser': Serialized(*serialize(456)),
}
msg_orig = msg.copy()
def check_out_false(out_value):
# Check output with deserialize=False
out_value = out_value.copy() # in case transport passed the object as-is
to_ser = out_value.pop('to_ser')
ser = out_value.pop('ser')
expected_msg = msg_orig.copy()
del expected_msg['ser']
del expected_msg['to_ser']
assert out_value == expected_msg
assert isinstance(ser, Serialized)
assert deserialize(ser.header, ser.frames) == 456
assert isinstance(to_ser, list)
to_ser, = to_ser
# The to_serialize() value could have been actually serialized
# or not (it's a transport-specific optimization)
if isinstance(to_ser, Serialized):
assert deserialize(to_ser.header, to_ser.frames) == 123
else:
assert to_ser == to_serialize(123)
def check_out_true(out_value):
# Check output with deserialize=True
expected_msg = msg.copy()
expected_msg['ser'] = 456
expected_msg['to_ser'] = [123]
assert out_value == expected_msg
yield check_listener_deserialize(addr, False, msg, check_out_false)
yield check_connector_deserialize(addr, False, msg, check_out_false)
yield check_listener_deserialize(addr, True, msg, check_out_true)
yield check_connector_deserialize(addr, True, msg, check_out_true)
# Test with long bytestrings, large enough to be transferred
# as a separate payload
_uncompressible = os.urandom(1024 ** 2) * 4 # end size: 8 MB
msg = {'op': 'update',
'x': _uncompressible,
'to_ser': [to_serialize(_uncompressible)],
'ser': Serialized(*serialize(_uncompressible)),
}
msg_orig = msg.copy()
def check_out(deserialize_flag, out_value):
# Check output with deserialize=False
assert sorted(out_value) == sorted(msg_orig)
out_value = out_value.copy() # in case transport passed the object as-is
to_ser = out_value.pop('to_ser')
ser = out_value.pop('ser')
expected_msg = msg_orig.copy()
del expected_msg['ser']
del expected_msg['to_ser']
assert out_value == expected_msg
if deserialize_flag:
assert isinstance(ser, (bytes, bytearray))
assert bytes(ser) == _uncompressible
else:
assert isinstance(ser, Serialized)
assert deserialize(ser.header, ser.frames) == _uncompressible
assert isinstance(to_ser, list)
to_ser, = to_ser
# The to_serialize() value could have been actually serialized
# or not (it's a transport-specific optimization)
if isinstance(to_ser, Serialized):
assert deserialize(to_ser.header, to_ser.frames) == _uncompressible
else:
assert to_ser == to_serialize(_uncompressible)
yield check_listener_deserialize(addr, False, msg, partial(check_out, False))
yield check_connector_deserialize(addr, False, msg, partial(check_out, False))
yield check_listener_deserialize(addr, True, msg, partial(check_out, True))
yield check_connector_deserialize(addr, True, msg, partial(check_out, True))
