test/py/SerializationTest.py - thrift - Git at Google

 #!/usr/bin/env python

 #
 # Licensed to the Apache Software Foundation (ASF) under one
 # or more contributor license agreements. See the NOTICE file
 # distributed with this work for additional information
 # regarding copyright ownership. The ASF licenses this file
 # to you under the Apache License, Version 2.0 (the
 # "License"); you may not use this file except in compliance
 # with the License. You may obtain a copy of the License at
 #
 #   http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing,
 # software distributed under the License is distributed on an
 # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 # KIND, either express or implied. See the License for the
 # specific language governing permissions and limitations
 # under the License.
 #

 from ThriftTest.ttypes import (
     Bonk,
     Bools,
     LargeDeltas,
     ListBonks,
     NestedListsBonk,
     NestedListsI32x2,
     NestedListsI32x3,
     NestedMixedx2,
     Numberz,
     VersioningTestV1,
     VersioningTestV2,
     Xtruct,
     Xtruct2,
 )

 from Recursive.ttypes import RecTree
 from Recursive.ttypes import RecList
 from Recursive.ttypes import CoRec
 from Recursive.ttypes import CoRec2
 from Recursive.ttypes import VectorTest
 from DebugProtoTest.ttypes import CompactProtoTestStruct, Empty
 from thrift.transport import TTransport
 from thrift.protocol import TBinaryProtocol, TCompactProtocol, TJSONProtocol
 from thrift.TSerialization import serialize, deserialize
 import sys
 import unittest


 class AbstractTest(unittest.TestCase):

     def setUp(self):
         self.v1obj = VersioningTestV1(
             begin_in_both=12345,
             old_string='aaa',
             end_in_both=54321,
         )

         self.v2obj = VersioningTestV2(
             begin_in_both=12345,
             newint=1,
             newbyte=2,
             newshort=3,
             newlong=4,
             newdouble=5.0,
             newstruct=Bonk(message="Hello!", type=123),
             newlist=[7, 8, 9],
             newset=set([42, 1, 8]),
             newmap={1: 2, 2: 3},
             newstring="Hola!",
             end_in_both=54321,
         )

         self.bools = Bools(im_true=True, im_false=False)
         self.bools_flipped = Bools(im_true=False, im_false=True)

         self.large_deltas = LargeDeltas(
             b1=self.bools,
             b10=self.bools_flipped,
             b100=self.bools,
             check_true=True,
             b1000=self.bools_flipped,
             check_false=False,
             vertwo2000=VersioningTestV2(newstruct=Bonk(message='World!', type=314)),
             a_set2500=set(['lazy', 'brown', 'cow']),
             vertwo3000=VersioningTestV2(newset=set([2, 3, 5, 7, 11])),
             big_numbers=[2 ** 8, 2 ** 16, 2 ** 31 - 1, -(2 ** 31 - 1)]
         )

         self.compact_struct = CompactProtoTestStruct(
             a_byte=127,
             a_i16=32000,
             a_i32=1000000000,
             a_i64=0xffffffffff,
             a_double=5.6789,
             a_string="my string",
             true_field=True,
             false_field=False,
             empty_struct_field=Empty(),
             byte_list=[-127, -1, 0, 1, 127],
             i16_list=[-1, 0, 1, 0x7fff],
             i32_list=[-1, 0, 0xff, 0xffff, 0xffffff, 0x7fffffff],
             i64_list=[-1, 0, 0xff, 0xffff, 0xffffff, 0xffffffff, 0xffffffffff, 0xffffffffffff, 0xffffffffffffff, 0x7fffffffffffffff],
             double_list=[0.1, 0.2, 0.3],
             string_list=["first", "second", "third"],
             boolean_list=[True, True, True, False, False, False],
             struct_list=[Empty(), Empty()],
             byte_set=set([-127, -1, 0, 1, 127]),
             i16_set=set([-1, 0, 1, 0x7fff]),
             i32_set=set([1, 2, 3]),
             i64_set=set([-1, 0, 0xff, 0xffff, 0xffffff, 0xffffffff, 0xffffffffff, 0xffffffffffff, 0xffffffffffffff, 0x7fffffffffffffff]),
             double_set=set([0.1, 0.2, 0.3]),
             string_set=set(["first", "second", "third"]),
             boolean_set=set([True, False]),
             # struct_set=set([Empty()]), # unhashable instance
             byte_byte_map={1: 2},
             i16_byte_map={1: 1, -1: 1, 0x7fff: 1},
             i32_byte_map={1: 1, -1: 1, 0x7fffffff: 1},
             i64_byte_map={0: 1, 1: 1, -1: 1, 0x7fffffffffffffff: 1},
             double_byte_map={-1.1: 1, 1.1: 1},
             string_byte_map={"first": 1, "second": 2, "third": 3, "": 0},
             boolean_byte_map={True: 1, False: 0},
             byte_i16_map={1: 1, 2: -1, 3: 0x7fff},
             byte_i32_map={1: 1, 2: -1, 3: 0x7fffffff},
             byte_i64_map={1: 1, 2: -1, 3: 0x7fffffffffffffff},
             byte_double_map={1: 0.1, 2: -0.1, 3: 1000000.1},
             byte_string_map={1: "", 2: "blah", 3: "loooooooooooooong string"},
             byte_boolean_map={1: True, 2: False},
             # list_byte_map # unhashable
             # set_byte_map={set([1, 2, 3]) : 1, set([0, 1]) : 2, set([]) : 0}, # unhashable
             # map_byte_map # unhashable
             byte_map_map={0: {}, 1: {1: 1}, 2: {1: 1, 2: 2}},
             byte_set_map={0: set([]), 1: set([1]), 2: set([1, 2])},
             byte_list_map={0: [], 1: [1], 2: [1, 2]},
         )

         self.nested_lists_i32x2 = NestedListsI32x2(
             [
                 [1, 1, 2],
                 [2, 7, 9],
                 [3, 5, 8]
             ]
         )

         self.nested_lists_i32x3 = NestedListsI32x3(
             [
                 [
                     [2, 7, 9],
                     [3, 5, 8]
                 ],
                 [
                     [1, 1, 2],
                     [1, 4, 9]
                 ]
             ]
         )

         self.nested_mixedx2 = NestedMixedx2(int_set_list=[
             set([1, 2, 3]),
             set([1, 4, 9]),
             set([1, 2, 3, 5, 8, 13, 21]),
             set([-1, 0, 1])
         ],
             # note, the sets below are sets of chars, since the strings are iterated
             map_int_strset={10: set('abc'), 20: set('def'), 30: set('GHI')},
             map_int_strset_list=[
                 {10: set('abc'), 20: set('def'), 30: set('GHI')},
                 {100: set('lmn'), 200: set('opq'), 300: set('RST')},
                 {1000: set('uvw'), 2000: set('wxy'), 3000: set('XYZ')}]
         )

         self.nested_lists_bonk = NestedListsBonk(
             [
                 [
                     [
                         Bonk(message='inner A first', type=1),
                         Bonk(message='inner A second', type=1)
                     ],
                     [
                         Bonk(message='inner B first', type=2),
                         Bonk(message='inner B second', type=2)
                     ]
                 ]
             ]
         )

         self.list_bonks = ListBonks(
             [
                 Bonk(message='inner A', type=1),
                 Bonk(message='inner B', type=2),
                 Bonk(message='inner C', type=0)
             ]
         )

     def _serialize(self, obj):
         trans = TTransport.TMemoryBuffer()
         prot = self.protocol_factory.getProtocol(trans)
         obj.write(prot)
         return trans.getvalue()

     def _deserialize(self, objtype, data):
         prot = self.protocol_factory.getProtocol(TTransport.TMemoryBuffer(data))
         ret = objtype()
         ret.read(prot)
         return ret

     def testForwards(self):
         obj = self._deserialize(VersioningTestV2, self._serialize(self.v1obj))
         self.assertEquals(obj.begin_in_both, self.v1obj.begin_in_both)
         self.assertEquals(obj.end_in_both, self.v1obj.end_in_both)

     def testBackwards(self):
         obj = self._deserialize(VersioningTestV1, self._serialize(self.v2obj))
         self.assertEquals(obj.begin_in_both, self.v2obj.begin_in_both)
         self.assertEquals(obj.end_in_both, self.v2obj.end_in_both)

     def testSerializeV1(self):
         obj = self._deserialize(VersioningTestV1, self._serialize(self.v1obj))
         self.assertEquals(obj, self.v1obj)

     def testSerializeV2(self):
         obj = self._deserialize(VersioningTestV2, self._serialize(self.v2obj))
         self.assertEquals(obj, self.v2obj)

     def testBools(self):
         self.assertNotEquals(self.bools, self.bools_flipped)
         self.assertNotEquals(self.bools, self.v1obj)
         obj = self._deserialize(Bools, self._serialize(self.bools))
         self.assertEquals(obj, self.bools)
         obj = self._deserialize(Bools, self._serialize(self.bools_flipped))
         self.assertEquals(obj, self.bools_flipped)
         rep = repr(self.bools)
         self.assertTrue(len(rep) > 0)

     def testLargeDeltas(self):
         # test large field deltas (meaningful in CompactProto only)
         obj = self._deserialize(LargeDeltas, self._serialize(self.large_deltas))
         self.assertEquals(obj, self.large_deltas)
         rep = repr(self.large_deltas)
         self.assertTrue(len(rep) > 0)

     def testNestedListsI32x2(self):
         obj = self._deserialize(NestedListsI32x2, self._serialize(self.nested_lists_i32x2))
         self.assertEquals(obj, self.nested_lists_i32x2)
         rep = repr(self.nested_lists_i32x2)
         self.assertTrue(len(rep) > 0)

     def testNestedListsI32x3(self):
         obj = self._deserialize(NestedListsI32x3, self._serialize(self.nested_lists_i32x3))
         self.assertEquals(obj, self.nested_lists_i32x3)
         rep = repr(self.nested_lists_i32x3)
         self.assertTrue(len(rep) > 0)

     def testNestedMixedx2(self):
         obj = self._deserialize(NestedMixedx2, self._serialize(self.nested_mixedx2))
         self.assertEquals(obj, self.nested_mixedx2)
         rep = repr(self.nested_mixedx2)
         self.assertTrue(len(rep) > 0)

     def testNestedListsBonk(self):
         obj = self._deserialize(NestedListsBonk, self._serialize(self.nested_lists_bonk))
         self.assertEquals(obj, self.nested_lists_bonk)
         rep = repr(self.nested_lists_bonk)
         self.assertTrue(len(rep) > 0)

     def testListBonks(self):
         obj = self._deserialize(ListBonks, self._serialize(self.list_bonks))
         self.assertEquals(obj, self.list_bonks)
         rep = repr(self.list_bonks)
         self.assertTrue(len(rep) > 0)

     def testCompactStruct(self):
         # test large field deltas (meaningful in CompactProto only)
         obj = self._deserialize(CompactProtoTestStruct, self._serialize(self.compact_struct))
         self.assertEquals(obj, self.compact_struct)
         rep = repr(self.compact_struct)
         self.assertTrue(len(rep) > 0)

     def testIntegerLimits(self):
         if (sys.version_info[0] == 2 and sys.version_info[1] <= 6):
             print('Skipping testIntegerLimits for Python 2.6')
             return
         bad_values = [CompactProtoTestStruct(a_byte=128), CompactProtoTestStruct(a_byte=-129),
                       CompactProtoTestStruct(a_i16=32768), CompactProtoTestStruct(a_i16=-32769),
                       CompactProtoTestStruct(a_i32=2147483648), CompactProtoTestStruct(a_i32=-2147483649),
                       CompactProtoTestStruct(a_i64=9223372036854775808), CompactProtoTestStruct(a_i64=-9223372036854775809)
                       ]

         for value in bad_values:
             self.assertRaises(Exception, self._serialize, value)

     def testRecTree(self):
         """Ensure recursive tree node can be created."""
         children = []
         for idx in range(1, 5):
             node = RecTree(item=idx, children=None)
             children.append(node)

         parent = RecTree(item=0, children=children)
         serde_parent = self._deserialize(RecTree, self._serialize(parent))
         self.assertEquals(0, serde_parent.item)
         self.assertEquals(4, len(serde_parent.children))
         for child in serde_parent.children:
             # Cannot use assertIsInstance in python 2.6?
             self.assertTrue(isinstance(child, RecTree))

     def _buildLinkedList(self):
         head = cur = RecList(item=0)
         for idx in range(1, 5):
             node = RecList(item=idx)
             cur.nextitem = node
             cur = node
         return head

     def _collapseLinkedList(self, head):
         out_list = []
         cur = head
         while cur is not None:
             out_list.append(cur.item)
             cur = cur.nextitem
         return out_list

     def testRecList(self):
         """Ensure recursive linked list can be created."""
         rec_list = self._buildLinkedList()
         serde_list = self._deserialize(RecList, self._serialize(rec_list))
         out_list = self._collapseLinkedList(serde_list)
         self.assertEquals([0, 1, 2, 3, 4], out_list)

     def testCoRec(self):
         """Ensure co-recursive structures can be created."""
         item1 = CoRec()
         item2 = CoRec2()

         item1.other = item2
         item2.other = item1

         # NOTE [econner724,2017-06-21]: These objects cannot be serialized as serialization
         # results in an infinite loop. fbthrift also suffers from this
         # problem.

     def testRecVector(self):
         """Ensure a list of recursive nodes can be created."""
         mylist = [self._buildLinkedList(), self._buildLinkedList()]
         myvec = VectorTest(lister=mylist)

         serde_vec = self._deserialize(VectorTest, self._serialize(myvec))
         golden_list = [0, 1, 2, 3, 4]
         for cur_list in serde_vec.lister:
             out_list = self._collapseLinkedList(cur_list)
             self.assertEqual(golden_list, out_list)


 class NormalBinaryTest(AbstractTest):
     protocol_factory = TBinaryProtocol.TBinaryProtocolFactory()


 class AcceleratedBinaryTest(AbstractTest):
     protocol_factory = TBinaryProtocol.TBinaryProtocolAcceleratedFactory(fallback=False)


 class CompactProtocolTest(AbstractTest):
     protocol_factory = TCompactProtocol.TCompactProtocolFactory()


 class AcceleratedCompactTest(AbstractTest):
     protocol_factory = TCompactProtocol.TCompactProtocolAcceleratedFactory(fallback=False)


 class JSONProtocolTest(AbstractTest):
     protocol_factory = TJSONProtocol.TJSONProtocolFactory()


 class AcceleratedFramedTest(unittest.TestCase):
     def testSplit(self):
         """Test FramedTransport and BinaryProtocolAccelerated

         Tests that TBinaryProtocolAccelerated and TFramedTransport
         play nicely together when a read spans a frame"""

         protocol_factory = TBinaryProtocol.TBinaryProtocolAcceleratedFactory()
         bigstring = "".join(chr(byte) for byte in range(ord("a"), ord("z") + 1))

         databuf = TTransport.TMemoryBuffer()
         prot = protocol_factory.getProtocol(databuf)
         prot.writeI32(42)
         prot.writeString(bigstring)
         prot.writeI16(24)
         data = databuf.getvalue()
         cutpoint = len(data) // 2
         parts = [data[:cutpoint], data[cutpoint:]]

         framed_buffer = TTransport.TMemoryBuffer()
         framed_writer = TTransport.TFramedTransport(framed_buffer)
         for part in parts:
             framed_writer.write(part)
             framed_writer.flush()
         self.assertEquals(len(framed_buffer.getvalue()), len(data) + 8)

         # Recreate framed_buffer so we can read from it.
         framed_buffer = TTransport.TMemoryBuffer(framed_buffer.getvalue())
         framed_reader = TTransport.TFramedTransport(framed_buffer)
         prot = protocol_factory.getProtocol(framed_reader)
         self.assertEqual(prot.readI32(), 42)
         self.assertEqual(prot.readString(), bigstring)
         self.assertEqual(prot.readI16(), 24)


 class SerializersTest(unittest.TestCase):

     def testSerializeThenDeserialize(self):
         obj = Xtruct2(i32_thing=1,
                       struct_thing=Xtruct(string_thing="foo"))

         s1 = serialize(obj)
         for i in range(10):
             self.assertEquals(s1, serialize(obj))
             objcopy = Xtruct2()
             deserialize(objcopy, serialize(obj))
             self.assertEquals(obj, objcopy)

         obj = Xtruct(string_thing="bar")
         objcopy = Xtruct()
         deserialize(objcopy, serialize(obj))
         self.assertEquals(obj, objcopy)

         # test booleans
         obj = Bools(im_true=True, im_false=False)
         objcopy = Bools()
         deserialize(objcopy, serialize(obj))
         self.assertEquals(obj, objcopy)

         # test enums
         for num, name in Numberz._VALUES_TO_NAMES.items():
             obj = Bonk(message='enum Numberz value %d is string %s' % (num, name), type=num)
             objcopy = Bonk()
             deserialize(objcopy, serialize(obj))
             self.assertEquals(obj, objcopy)


 def suite():
     suite = unittest.TestSuite()
     loader = unittest.TestLoader()

     suite.addTest(loader.loadTestsFromTestCase(NormalBinaryTest))
     suite.addTest(loader.loadTestsFromTestCase(AcceleratedBinaryTest))
     suite.addTest(loader.loadTestsFromTestCase(AcceleratedCompactTest))
     suite.addTest(loader.loadTestsFromTestCase(CompactProtocolTest))
     suite.addTest(loader.loadTestsFromTestCase(JSONProtocolTest))
     suite.addTest(loader.loadTestsFromTestCase(AcceleratedFramedTest))
     suite.addTest(loader.loadTestsFromTestCase(SerializersTest))
     return suite


 if __name__ == "__main__":
     unittest.main(defaultTest="suite", testRunner=unittest.TextTestRunner(verbosity=2))
	#!/usr/bin/env python

	#
	# Licensed to the Apache Software Foundation (ASF) under one
	# or more contributor license agreements. See the NOTICE file
	# distributed with this work for additional information
	# regarding copyright ownership. The ASF licenses this file
	# to you under the Apache License, Version 2.0 (the
	# "License"); you may not use this file except in compliance
	# with the License. You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing,
	# software distributed under the License is distributed on an
	# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	# KIND, either express or implied. See the License for the
	# specific language governing permissions and limitations
	# under the License.
	#

	from ThriftTest.ttypes import (
	Bonk,
	Bools,
	LargeDeltas,
	ListBonks,
	NestedListsBonk,
	NestedListsI32x2,
	NestedListsI32x3,
	NestedMixedx2,
	Numberz,
	VersioningTestV1,
	VersioningTestV2,
	Xtruct,
	Xtruct2,
	)

	from Recursive.ttypes import RecTree
	from Recursive.ttypes import RecList
	from Recursive.ttypes import CoRec
	from Recursive.ttypes import CoRec2
	from Recursive.ttypes import VectorTest
	from DebugProtoTest.ttypes import CompactProtoTestStruct, Empty
	from thrift.transport import TTransport
	from thrift.protocol import TBinaryProtocol, TCompactProtocol, TJSONProtocol
	from thrift.TSerialization import serialize, deserialize
	import sys
	import unittest


	class AbstractTest(unittest.TestCase):

	def setUp(self):
	self.v1obj = VersioningTestV1(
	begin_in_both=12345,
	old_string='aaa',
	end_in_both=54321,
	)

	self.v2obj = VersioningTestV2(
	begin_in_both=12345,
	newint=1,
	newbyte=2,
	newshort=3,
	newlong=4,
	newdouble=5.0,
	newstruct=Bonk(message="Hello!", type=123),
	newlist=[7, 8, 9],
	newset=set([42, 1, 8]),
	newmap={1: 2, 2: 3},
	newstring="Hola!",
	end_in_both=54321,
	)

	self.bools = Bools(im_true=True, im_false=False)
	self.bools_flipped = Bools(im_true=False, im_false=True)

	self.large_deltas = LargeDeltas(
	b1=self.bools,
	b10=self.bools_flipped,
	b100=self.bools,
	check_true=True,
	b1000=self.bools_flipped,
	check_false=False,
	vertwo2000=VersioningTestV2(newstruct=Bonk(message='World!', type=314)),
	a_set2500=set(['lazy', 'brown', 'cow']),
	vertwo3000=VersioningTestV2(newset=set([2, 3, 5, 7, 11])),
	big_numbers=[2 8, 2 16, 2 31 - 1, -(2 31 - 1)]
	)

	self.compact_struct = CompactProtoTestStruct(
	a_byte=127,
	a_i16=32000,
	a_i32=1000000000,
	a_i64=0xffffffffff,
	a_double=5.6789,
	a_string="my string",
	true_field=True,
	false_field=False,
	empty_struct_field=Empty(),
	byte_list=[-127, -1, 0, 1, 127],
	i16_list=[-1, 0, 1, 0x7fff],
	i32_list=[-1, 0, 0xff, 0xffff, 0xffffff, 0x7fffffff],
	i64_list=[-1, 0, 0xff, 0xffff, 0xffffff, 0xffffffff, 0xffffffffff, 0xffffffffffff, 0xffffffffffffff, 0x7fffffffffffffff],
	double_list=[0.1, 0.2, 0.3],
	string_list=["first", "second", "third"],
	boolean_list=[True, True, True, False, False, False],
	struct_list=[Empty(), Empty()],
	byte_set=set([-127, -1, 0, 1, 127]),
	i16_set=set([-1, 0, 1, 0x7fff]),
	i32_set=set([1, 2, 3]),
	i64_set=set([-1, 0, 0xff, 0xffff, 0xffffff, 0xffffffff, 0xffffffffff, 0xffffffffffff, 0xffffffffffffff, 0x7fffffffffffffff]),
	double_set=set([0.1, 0.2, 0.3]),
	string_set=set(["first", "second", "third"]),
	boolean_set=set([True, False]),
	# struct_set=set([Empty()]), # unhashable instance
	byte_byte_map={1: 2},
	i16_byte_map={1: 1, -1: 1, 0x7fff: 1},
	i32_byte_map={1: 1, -1: 1, 0x7fffffff: 1},
	i64_byte_map={0: 1, 1: 1, -1: 1, 0x7fffffffffffffff: 1},
	double_byte_map={-1.1: 1, 1.1: 1},
	string_byte_map={"first": 1, "second": 2, "third": 3, "": 0},
	boolean_byte_map={True: 1, False: 0},
	byte_i16_map={1: 1, 2: -1, 3: 0x7fff},
	byte_i32_map={1: 1, 2: -1, 3: 0x7fffffff},
	byte_i64_map={1: 1, 2: -1, 3: 0x7fffffffffffffff},
	byte_double_map={1: 0.1, 2: -0.1, 3: 1000000.1},
	byte_string_map={1: "", 2: "blah", 3: "loooooooooooooong string"},
	byte_boolean_map={1: True, 2: False},
	# list_byte_map # unhashable
	# set_byte_map={set([1, 2, 3]) : 1, set([0, 1]) : 2, set([]) : 0}, # unhashable
	# map_byte_map # unhashable
	byte_map_map={0: {}, 1: {1: 1}, 2: {1: 1, 2: 2}},
	byte_set_map={0: set([]), 1: set([1]), 2: set([1, 2])},
	byte_list_map={0: [], 1: [1], 2: [1, 2]},
	)

	self.nested_lists_i32x2 = NestedListsI32x2(
	[
	[1, 1, 2],
	[2, 7, 9],
	[3, 5, 8]
	]
	)

	self.nested_lists_i32x3 = NestedListsI32x3(
	[
	[
	[2, 7, 9],
	[3, 5, 8]
	],
	[
	[1, 1, 2],
	[1, 4, 9]
	]
	]
	)

	self.nested_mixedx2 = NestedMixedx2(int_set_list=[
	set([1, 2, 3]),
	set([1, 4, 9]),
	set([1, 2, 3, 5, 8, 13, 21]),
	set([-1, 0, 1])
	],
	# note, the sets below are sets of chars, since the strings are iterated
	map_int_strset={10: set('abc'), 20: set('def'), 30: set('GHI')},
	map_int_strset_list=[
	{10: set('abc'), 20: set('def'), 30: set('GHI')},
	{100: set('lmn'), 200: set('opq'), 300: set('RST')},
	{1000: set('uvw'), 2000: set('wxy'), 3000: set('XYZ')}]
	)

	self.nested_lists_bonk = NestedListsBonk(
	[
	[
	[
	Bonk(message='inner A first', type=1),
	Bonk(message='inner A second', type=1)
	],
	[
	Bonk(message='inner B first', type=2),
	Bonk(message='inner B second', type=2)
	]
	]
	]
	)

	self.list_bonks = ListBonks(
	[
	Bonk(message='inner A', type=1),
	Bonk(message='inner B', type=2),
	Bonk(message='inner C', type=0)
	]
	)

	def _serialize(self, obj):
	trans = TTransport.TMemoryBuffer()
	prot = self.protocol_factory.getProtocol(trans)
	obj.write(prot)
	return trans.getvalue()

	def _deserialize(self, objtype, data):
	prot = self.protocol_factory.getProtocol(TTransport.TMemoryBuffer(data))
	ret = objtype()
	ret.read(prot)
	return ret

	def testForwards(self):
	obj = self._deserialize(VersioningTestV2, self._serialize(self.v1obj))
	self.assertEquals(obj.begin_in_both, self.v1obj.begin_in_both)
	self.assertEquals(obj.end_in_both, self.v1obj.end_in_both)

	def testBackwards(self):
	obj = self._deserialize(VersioningTestV1, self._serialize(self.v2obj))
	self.assertEquals(obj.begin_in_both, self.v2obj.begin_in_both)
	self.assertEquals(obj.end_in_both, self.v2obj.end_in_both)

	def testSerializeV1(self):
	obj = self._deserialize(VersioningTestV1, self._serialize(self.v1obj))
	self.assertEquals(obj, self.v1obj)

	def testSerializeV2(self):
	obj = self._deserialize(VersioningTestV2, self._serialize(self.v2obj))
	self.assertEquals(obj, self.v2obj)

	def testBools(self):
	self.assertNotEquals(self.bools, self.bools_flipped)
	self.assertNotEquals(self.bools, self.v1obj)
	obj = self._deserialize(Bools, self._serialize(self.bools))
	self.assertEquals(obj, self.bools)
	obj = self._deserialize(Bools, self._serialize(self.bools_flipped))
	self.assertEquals(obj, self.bools_flipped)
	rep = repr(self.bools)
	self.assertTrue(len(rep) > 0)

	def testLargeDeltas(self):
	# test large field deltas (meaningful in CompactProto only)
	obj = self._deserialize(LargeDeltas, self._serialize(self.large_deltas))
	self.assertEquals(obj, self.large_deltas)
	rep = repr(self.large_deltas)
	self.assertTrue(len(rep) > 0)

	def testNestedListsI32x2(self):
	obj = self._deserialize(NestedListsI32x2, self._serialize(self.nested_lists_i32x2))
	self.assertEquals(obj, self.nested_lists_i32x2)
	rep = repr(self.nested_lists_i32x2)
	self.assertTrue(len(rep) > 0)

	def testNestedListsI32x3(self):
	obj = self._deserialize(NestedListsI32x3, self._serialize(self.nested_lists_i32x3))
	self.assertEquals(obj, self.nested_lists_i32x3)
	rep = repr(self.nested_lists_i32x3)
	self.assertTrue(len(rep) > 0)

	def testNestedMixedx2(self):
	obj = self._deserialize(NestedMixedx2, self._serialize(self.nested_mixedx2))
	self.assertEquals(obj, self.nested_mixedx2)
	rep = repr(self.nested_mixedx2)
	self.assertTrue(len(rep) > 0)

	def testNestedListsBonk(self):
	obj = self._deserialize(NestedListsBonk, self._serialize(self.nested_lists_bonk))
	self.assertEquals(obj, self.nested_lists_bonk)
	rep = repr(self.nested_lists_bonk)
	self.assertTrue(len(rep) > 0)

	def testListBonks(self):
	obj = self._deserialize(ListBonks, self._serialize(self.list_bonks))
	self.assertEquals(obj, self.list_bonks)
	rep = repr(self.list_bonks)
	self.assertTrue(len(rep) > 0)

	def testCompactStruct(self):
	# test large field deltas (meaningful in CompactProto only)
	obj = self._deserialize(CompactProtoTestStruct, self._serialize(self.compact_struct))
	self.assertEquals(obj, self.compact_struct)
	rep = repr(self.compact_struct)
	self.assertTrue(len(rep) > 0)

	def testIntegerLimits(self):
	if (sys.version_info[0] == 2 and sys.version_info[1] <= 6):
	print('Skipping testIntegerLimits for Python 2.6')
	return
	bad_values = [CompactProtoTestStruct(a_byte=128), CompactProtoTestStruct(a_byte=-129),
	CompactProtoTestStruct(a_i16=32768), CompactProtoTestStruct(a_i16=-32769),
	CompactProtoTestStruct(a_i32=2147483648), CompactProtoTestStruct(a_i32=-2147483649),
	CompactProtoTestStruct(a_i64=9223372036854775808), CompactProtoTestStruct(a_i64=-9223372036854775809)
	]

	for value in bad_values:
	self.assertRaises(Exception, self._serialize, value)

	def testRecTree(self):
	"""Ensure recursive tree node can be created."""
	children = []
	for idx in range(1, 5):
	node = RecTree(item=idx, children=None)
	children.append(node)

	parent = RecTree(item=0, children=children)
	serde_parent = self._deserialize(RecTree, self._serialize(parent))
	self.assertEquals(0, serde_parent.item)
	self.assertEquals(4, len(serde_parent.children))
	for child in serde_parent.children:
	# Cannot use assertIsInstance in python 2.6?
	self.assertTrue(isinstance(child, RecTree))

	def _buildLinkedList(self):
	head = cur = RecList(item=0)
	for idx in range(1, 5):
	node = RecList(item=idx)
	cur.nextitem = node
	cur = node
	return head

	def _collapseLinkedList(self, head):
	out_list = []
	cur = head
	while cur is not None:
	out_list.append(cur.item)
	cur = cur.nextitem
	return out_list

	def testRecList(self):
	"""Ensure recursive linked list can be created."""
	rec_list = self._buildLinkedList()
	serde_list = self._deserialize(RecList, self._serialize(rec_list))
	out_list = self._collapseLinkedList(serde_list)
	self.assertEquals([0, 1, 2, 3, 4], out_list)

	def testCoRec(self):
	"""Ensure co-recursive structures can be created."""
	item1 = CoRec()
	item2 = CoRec2()

	item1.other = item2
	item2.other = item1

	# NOTE [econner724,2017-06-21]: These objects cannot be serialized as serialization
	# results in an infinite loop. fbthrift also suffers from this
	# problem.

	def testRecVector(self):
	"""Ensure a list of recursive nodes can be created."""
	mylist = [self._buildLinkedList(), self._buildLinkedList()]
	myvec = VectorTest(lister=mylist)

	serde_vec = self._deserialize(VectorTest, self._serialize(myvec))
	golden_list = [0, 1, 2, 3, 4]
	for cur_list in serde_vec.lister:
	out_list = self._collapseLinkedList(cur_list)
	self.assertEqual(golden_list, out_list)


	class NormalBinaryTest(AbstractTest):
	protocol_factory = TBinaryProtocol.TBinaryProtocolFactory()


	class AcceleratedBinaryTest(AbstractTest):
	protocol_factory = TBinaryProtocol.TBinaryProtocolAcceleratedFactory(fallback=False)


	class CompactProtocolTest(AbstractTest):
	protocol_factory = TCompactProtocol.TCompactProtocolFactory()


	class AcceleratedCompactTest(AbstractTest):
	protocol_factory = TCompactProtocol.TCompactProtocolAcceleratedFactory(fallback=False)


	class JSONProtocolTest(AbstractTest):
	protocol_factory = TJSONProtocol.TJSONProtocolFactory()


	class AcceleratedFramedTest(unittest.TestCase):
	def testSplit(self):
	"""Test FramedTransport and BinaryProtocolAccelerated

	Tests that TBinaryProtocolAccelerated and TFramedTransport
	play nicely together when a read spans a frame"""

	protocol_factory = TBinaryProtocol.TBinaryProtocolAcceleratedFactory()
	bigstring = "".join(chr(byte) for byte in range(ord("a"), ord("z") + 1))

	databuf = TTransport.TMemoryBuffer()
	prot = protocol_factory.getProtocol(databuf)
	prot.writeI32(42)
	prot.writeString(bigstring)
	prot.writeI16(24)
	data = databuf.getvalue()
	cutpoint = len(data) // 2
	parts = [data[:cutpoint], data[cutpoint:]]

	framed_buffer = TTransport.TMemoryBuffer()
	framed_writer = TTransport.TFramedTransport(framed_buffer)
	for part in parts:
	framed_writer.write(part)
	framed_writer.flush()
	self.assertEquals(len(framed_buffer.getvalue()), len(data) + 8)

	# Recreate framed_buffer so we can read from it.
	framed_buffer = TTransport.TMemoryBuffer(framed_buffer.getvalue())
	framed_reader = TTransport.TFramedTransport(framed_buffer)
	prot = protocol_factory.getProtocol(framed_reader)
	self.assertEqual(prot.readI32(), 42)
	self.assertEqual(prot.readString(), bigstring)
	self.assertEqual(prot.readI16(), 24)


	class SerializersTest(unittest.TestCase):

	def testSerializeThenDeserialize(self):
	obj = Xtruct2(i32_thing=1,
	struct_thing=Xtruct(string_thing="foo"))

	s1 = serialize(obj)
	for i in range(10):
	self.assertEquals(s1, serialize(obj))
	objcopy = Xtruct2()
	deserialize(objcopy, serialize(obj))
	self.assertEquals(obj, objcopy)

	obj = Xtruct(string_thing="bar")
	objcopy = Xtruct()
	deserialize(objcopy, serialize(obj))
	self.assertEquals(obj, objcopy)

	# test booleans
	obj = Bools(im_true=True, im_false=False)
	objcopy = Bools()
	deserialize(objcopy, serialize(obj))
	self.assertEquals(obj, objcopy)

	# test enums
	for num, name in Numberz._VALUES_TO_NAMES.items():
	obj = Bonk(message='enum Numberz value %d is string %s' % (num, name), type=num)
	objcopy = Bonk()
	deserialize(objcopy, serialize(obj))
	self.assertEquals(obj, objcopy)


	def suite():
	suite = unittest.TestSuite()
	loader = unittest.TestLoader()

	suite.addTest(loader.loadTestsFromTestCase(NormalBinaryTest))
	suite.addTest(loader.loadTestsFromTestCase(AcceleratedBinaryTest))
	suite.addTest(loader.loadTestsFromTestCase(AcceleratedCompactTest))
	suite.addTest(loader.loadTestsFromTestCase(CompactProtocolTest))
	suite.addTest(loader.loadTestsFromTestCase(JSONProtocolTest))
	suite.addTest(loader.loadTestsFromTestCase(AcceleratedFramedTest))
	suite.addTest(loader.loadTestsFromTestCase(SerializersTest))
	return suite


	if __name__ == "__main__":
	unittest.main(defaultTest="suite", testRunner=unittest.TextTestRunner(verbosity=2))