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allow splitting and merging of heading cells...
allow splitting and merging of heading cells I consider it a bug that you couldn't merge with heading cells, and that you couldn't split them, either. (So much so that I thought it was a bug in ipython-vimception when I ran into it). This change removes that limitation, so heading cells are on par with the other cells in terms of the kinds of manipulations one can carry out with them.
MinRK - - Load All Authors

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r17119:103ad648
r17417:811c7332
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test_serialize.py
208 lines | 6.1 KiB | text/x-python | PythonLexer
/ IPython / kernel / zmq / tests / test_serialize.py
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"""test serialization tools"""
# Copyright (c) IPython Development Team.
# Distributed under the terms of the Modified BSD License.
import pickle
from collections import namedtuple
import nose.tools as nt
# from unittest import TestCaes
from IPython.kernel.zmq.serialize import serialize_object, unserialize_object
from IPython.testing import decorators as dec
from IPython.utils.pickleutil import CannedArray, CannedClass
from IPython.utils.py3compat import iteritems
from IPython.parallel import interactive
#-------------------------------------------------------------------------------
# Globals and Utilities
#-------------------------------------------------------------------------------
def roundtrip(obj):
"""roundtrip an object through serialization"""
bufs = serialize_object(obj)
obj2, remainder = unserialize_object(bufs)
nt.assert_equals(remainder, [])
return obj2
class C(object):
"""dummy class for """
def __init__(self, **kwargs):
for key,value in iteritems(kwargs):
setattr(self, key, value)
SHAPES = ((100,), (1024,10), (10,8,6,5), (), (0,))
DTYPES = ('uint8', 'float64', 'int32', [('g', 'float32')], '|S10')
#-------------------------------------------------------------------------------
# Tests
#-------------------------------------------------------------------------------
def new_array(shape, dtype):
import numpy
return numpy.random.random(shape).astype(dtype)
def test_roundtrip_simple():
for obj in [
'hello',
dict(a='b', b=10),
[1,2,'hi'],
(b'123', 'hello'),
]:
obj2 = roundtrip(obj)
nt.assert_equal(obj, obj2)
def test_roundtrip_nested():
for obj in [
dict(a=range(5), b={1:b'hello'}),
[range(5),[range(3),(1,[b'whoda'])]],
]:
obj2 = roundtrip(obj)
nt.assert_equal(obj, obj2)
def test_roundtrip_buffered():
for obj in [
dict(a=b"x"*1025),
b"hello"*500,
[b"hello"*501, 1,2,3]
]:
bufs = serialize_object(obj)
nt.assert_equal(len(bufs), 2)
obj2, remainder = unserialize_object(bufs)
nt.assert_equal(remainder, [])
nt.assert_equal(obj, obj2)
@dec.skip_without('numpy')
def test_numpy():
import numpy
from numpy.testing.utils import assert_array_equal
for shape in SHAPES:
for dtype in DTYPES:
A = new_array(shape, dtype=dtype)
bufs = serialize_object(A)
B, r = unserialize_object(bufs)
nt.assert_equal(r, [])
nt.assert_equal(A.shape, B.shape)
nt.assert_equal(A.dtype, B.dtype)
assert_array_equal(A,B)
@dec.skip_without('numpy')
def test_recarray():
import numpy
from numpy.testing.utils import assert_array_equal
for shape in SHAPES:
for dtype in [
[('f', float), ('s', '|S10')],
[('n', int), ('s', '|S1'), ('u', 'uint32')],
]:
A = new_array(shape, dtype=dtype)
bufs = serialize_object(A)
B, r = unserialize_object(bufs)
nt.assert_equal(r, [])
nt.assert_equal(A.shape, B.shape)
nt.assert_equal(A.dtype, B.dtype)
assert_array_equal(A,B)
@dec.skip_without('numpy')
def test_numpy_in_seq():
import numpy
from numpy.testing.utils import assert_array_equal
for shape in SHAPES:
for dtype in DTYPES:
A = new_array(shape, dtype=dtype)
bufs = serialize_object((A,1,2,b'hello'))
canned = pickle.loads(bufs[0])
nt.assert_is_instance(canned[0], CannedArray)
tup, r = unserialize_object(bufs)
B = tup[0]
nt.assert_equal(r, [])
nt.assert_equal(A.shape, B.shape)
nt.assert_equal(A.dtype, B.dtype)
assert_array_equal(A,B)
@dec.skip_without('numpy')
def test_numpy_in_dict():
import numpy
from numpy.testing.utils import assert_array_equal
for shape in SHAPES:
for dtype in DTYPES:
A = new_array(shape, dtype=dtype)
bufs = serialize_object(dict(a=A,b=1,c=range(20)))
canned = pickle.loads(bufs[0])
nt.assert_is_instance(canned['a'], CannedArray)
d, r = unserialize_object(bufs)
B = d['a']
nt.assert_equal(r, [])
nt.assert_equal(A.shape, B.shape)
nt.assert_equal(A.dtype, B.dtype)
assert_array_equal(A,B)
def test_class():
@interactive
class C(object):
a=5
bufs = serialize_object(dict(C=C))
canned = pickle.loads(bufs[0])
nt.assert_is_instance(canned['C'], CannedClass)
d, r = unserialize_object(bufs)
C2 = d['C']
nt.assert_equal(C2.a, C.a)
def test_class_oldstyle():
@interactive
class C:
a=5
bufs = serialize_object(dict(C=C))
canned = pickle.loads(bufs[0])
nt.assert_is_instance(canned['C'], CannedClass)
d, r = unserialize_object(bufs)
C2 = d['C']
nt.assert_equal(C2.a, C.a)
def test_tuple():
tup = (lambda x:x, 1)
bufs = serialize_object(tup)
canned = pickle.loads(bufs[0])
nt.assert_is_instance(canned, tuple)
t2, r = unserialize_object(bufs)
nt.assert_equal(t2[0](t2[1]), tup[0](tup[1]))
point = namedtuple('point', 'x y')
def test_namedtuple():
p = point(1,2)
bufs = serialize_object(p)
canned = pickle.loads(bufs[0])
nt.assert_is_instance(canned, point)
p2, r = unserialize_object(bufs, globals())
nt.assert_equal(p2.x, p.x)
nt.assert_equal(p2.y, p.y)
def test_list():
lis = [lambda x:x, 1]
bufs = serialize_object(lis)
canned = pickle.loads(bufs[0])
nt.assert_is_instance(canned, list)
l2, r = unserialize_object(bufs)
nt.assert_equal(l2[0](l2[1]), lis[0](lis[1]))
def test_class_inheritance():
@interactive
class C(object):
a=5
@interactive
class D(C):
b=10
bufs = serialize_object(dict(D=D))
canned = pickle.loads(bufs[0])
nt.assert_is_instance(canned['D'], CannedClass)
d, r = unserialize_object(bufs)
D2 = d['D']
nt.assert_equal(D2.a, D.a)
nt.assert_equal(D2.b, D.b)