cpython/Lib/test/test_userdict.py

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# Check every path through every method of UserDict
import unittest
from test import test_support, mapping_tests
import UserDict
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d0 = {}
d1 = {"one": 1}
d2 = {"one": 1, "two": 2}
d3 = {"one": 1, "two": 3, "three": 5}
d4 = {"one": None, "two": None}
d5 = {"one": 1, "two": 1}
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class UserDictTest(mapping_tests.TestHashMappingProtocol):
type2test = UserDict.IterableUserDict
def test_all(self):
# Test constructors
u = UserDict.UserDict()
u0 = UserDict.UserDict(d0)
u1 = UserDict.UserDict(d1)
u2 = UserDict.IterableUserDict(d2)
uu = UserDict.UserDict(u)
uu0 = UserDict.UserDict(u0)
uu1 = UserDict.UserDict(u1)
uu2 = UserDict.UserDict(u2)
# keyword arg constructor
self.assertEqual(UserDict.UserDict(one=1, two=2), d2)
# item sequence constructor
self.assertEqual(UserDict.UserDict([('one',1), ('two',2)]), d2)
self.assertEqual(UserDict.UserDict(dict=[('one',1), ('two',2)]), d2)
# both together
self.assertEqual(UserDict.UserDict([('one',1), ('two',2)], two=3, three=5), d3)
# alternate constructor
self.assertEqual(UserDict.UserDict.fromkeys('one two'.split()), d4)
self.assertEqual(UserDict.UserDict().fromkeys('one two'.split()), d4)
self.assertEqual(UserDict.UserDict.fromkeys('one two'.split(), 1), d5)
self.assertEqual(UserDict.UserDict().fromkeys('one two'.split(), 1), d5)
self.assert_(u1.fromkeys('one two'.split()) is not u1)
self.assert_(isinstance(u1.fromkeys('one two'.split()), UserDict.UserDict))
self.assert_(isinstance(u2.fromkeys('one two'.split()), UserDict.IterableUserDict))
# Test __repr__
self.assertEqual(str(u0), str(d0))
self.assertEqual(repr(u1), repr(d1))
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self.assertEqual(repr(u2), repr(d2))
# Test __cmp__ and __len__
all = [d0, d1, d2, u, u0, u1, u2, uu, uu0, uu1, uu2]
for a in all:
for b in all:
Restructure comparison dramatically. There is no longer a default *ordering* between objects; there is only a default equality test (defined by an object being equal to itself only). Read the comment in object.c. The current implementation never uses a three-way comparison to compute a rich comparison, but it does use a rich comparison to compute a three-way comparison. I'm not quite done ripping out all the calls to PyObject_Compare/Cmp, or replacing tp_compare implementations with tp_richcompare implementations; but much of that has happened (to make most unit tests pass). The following tests still fail, because I need help deciding or understanding: test_codeop -- depends on comparing code objects test_datetime -- need Tim Peters' opinion test_marshal -- depends on comparing code objects test_mutants -- need help understanding it The problem with test_codeop and test_marshal is this: these tests compare two different code objects and expect them to be equal. Is that still a feature we'd like to support? I've temporarily removed the comparison and hash code from code objects, so they use the default (equality by pointer only) comparison. For the other two tests, run them to see for yourself. (There may be more failing test with "-u all".) A general problem with getting lots of these tests to pass is the reality that for object types that have a natural total ordering, implementing __cmp__ is much more convenient than implementing __eq__, __ne__, __lt__, and so on. Should we go back to allowing __cmp__ to provide a total ordering? Should we provide some other way to implement rich comparison with a single method override? Alex proposed a __key__() method; I've considered a __richcmp__() method. Or perhaps __cmp__() just shouldn't be killed off...
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self.assertEqual(a == b, len(a) == len(b))
# Test __getitem__
self.assertEqual(u2["one"], 1)
self.assertRaises(KeyError, u1.__getitem__, "two")
# Test __setitem__
u3 = UserDict.UserDict(u2)
u3["two"] = 2
u3["three"] = 3
# Test __delitem__
del u3["three"]
self.assertRaises(KeyError, u3.__delitem__, "three")
# Test clear
u3.clear()
self.assertEqual(u3, {})
# Test copy()
u2a = u2.copy()
self.assertEqual(u2a, u2)
u2b = UserDict.UserDict(x=42, y=23)
u2c = u2b.copy() # making a copy of a UserDict is special cased
self.assertEqual(u2b, u2c)
class MyUserDict(UserDict.UserDict):
def display(self): print(self)
m2 = MyUserDict(u2)
m2a = m2.copy()
self.assertEqual(m2a, m2)
# SF bug #476616 -- copy() of UserDict subclass shared data
m2['foo'] = 'bar'
self.assertNotEqual(m2a, m2)
# Test keys, items, values
self.assertEqual(u2.keys(), d2.keys())
self.assertEqual(u2.items(), d2.items())
self.assertEqual(list(u2.values()), list(d2.values()))
# Test "in".
for i in u2.keys():
self.assert_(i in u2)
self.assertEqual(i in u1, i in d1)
self.assertEqual(i in u0, i in d0)
# Test update
t = UserDict.UserDict()
t.update(u2)
self.assertEqual(t, u2)
class Items:
def items(self):
return (("x", 42), ("y", 23))
t = UserDict.UserDict()
t.update(Items())
self.assertEqual(t, {"x": 42, "y": 23})
# Test get
for i in u2.keys():
self.assertEqual(u2.get(i), u2[i])
self.assertEqual(u1.get(i), d1.get(i))
self.assertEqual(u0.get(i), d0.get(i))
# Test "in" iteration.
for i in xrange(20):
u2[i] = str(i)
ikeys = []
for k in u2:
ikeys.append(k)
keys = u2.keys()
self.assertEqual(set(ikeys), set(keys))
# Test setdefault
t = UserDict.UserDict()
self.assertEqual(t.setdefault("x", 42), 42)
self.assert_("x" in t)
self.assertEqual(t.setdefault("x", 23), 42)
# Test pop
t = UserDict.UserDict(x=42)
self.assertEqual(t.pop("x"), 42)
self.assertRaises(KeyError, t.pop, "x")
self.assertEqual(t.pop("x", 1), 1)
t["x"] = 42
self.assertEqual(t.pop("x", 1), 42)
# Test popitem
t = UserDict.UserDict(x=42)
self.assertEqual(t.popitem(), ("x", 42))
self.assertRaises(KeyError, t.popitem)
def test_missing(self):
# Make sure UserDict doesn't have a __missing__ method
self.assertEqual(hasattr(UserDict, "__missing__"), False)
# Test several cases:
# (D) subclass defines __missing__ method returning a value
# (E) subclass defines __missing__ method raising RuntimeError
# (F) subclass sets __missing__ instance variable (no effect)
# (G) subclass doesn't define __missing__ at a all
class D(UserDict.UserDict):
def __missing__(self, key):
return 42
d = D({1: 2, 3: 4})
self.assertEqual(d[1], 2)
self.assertEqual(d[3], 4)
self.assert_(2 not in d)
self.assert_(2 not in d.keys())
self.assertEqual(d[2], 42)
class E(UserDict.UserDict):
def __missing__(self, key):
raise RuntimeError(key)
e = E()
try:
e[42]
except RuntimeError as err:
self.assertEqual(err.args, (42,))
else:
self.fail_("e[42] didn't raise RuntimeError")
class F(UserDict.UserDict):
def __init__(self):
# An instance variable __missing__ should have no effect
self.__missing__ = lambda key: None
UserDict.UserDict.__init__(self)
f = F()
try:
f[42]
except KeyError as err:
self.assertEqual(err.args, (42,))
else:
self.fail_("f[42] didn't raise KeyError")
class G(UserDict.UserDict):
pass
g = G()
try:
g[42]
except KeyError as err:
self.assertEqual(err.args, (42,))
else:
self.fail_("g[42] didn't raise KeyError")
##########################
# Test Dict Mixin
class SeqDict(UserDict.DictMixin):
"""Dictionary lookalike implemented with lists.
Used to test and demonstrate DictMixin
"""
def __init__(self, other=None, **kwargs):
self.keylist = []
self.valuelist = []
if other is not None:
for (key, value) in other:
self[key] = value
for (key, value) in kwargs.items():
self[key] = value
def __getitem__(self, key):
try:
i = self.keylist.index(key)
except ValueError:
raise KeyError
return self.valuelist[i]
def __setitem__(self, key, value):
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try:
i = self.keylist.index(key)
self.valuelist[i] = value
except ValueError:
self.keylist.append(key)
self.valuelist.append(value)
def __delitem__(self, key):
try:
i = self.keylist.index(key)
except ValueError:
raise KeyError
self.keylist.pop(i)
self.valuelist.pop(i)
def keys(self):
return list(self.keylist)
def copy(self):
d = self.__class__()
for key, value in self.items():
d[key] = value
return d
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@classmethod
def fromkeys(cls, keys, value=None):
d = cls()
for key in keys:
d[key] = value
return d
class UserDictMixinTest(mapping_tests.TestMappingProtocol):
type2test = SeqDict
def test_all(self):
## Setup test and verify working of the test class
# check init
s = SeqDict()
# exercise setitem
s[10] = 'ten'
s[20] = 'twenty'
s[30] = 'thirty'
# exercise delitem
del s[20]
# check getitem and setitem
self.assertEqual(s[10], 'ten')
# check keys() and delitem
self.assertEqual(s.keys(), [10, 30])
## Now, test the DictMixin methods one by one
# __contains__
self.assert_(10 in s)
self.assert_(20 not in s)
# __iter__
self.assertEqual([k for k in s], [10, 30])
# __len__
self.assertEqual(len(s), 2)
# iteritems
self.assertEqual(list(s.items()), [(10,'ten'), (30, 'thirty')])
# iterkeys
self.assertEqual(list(s.keys()), [10, 30])
# itervalues
self.assertEqual(list(s.values()), ['ten', 'thirty'])
# values
self.assertEqual(s.values(), ['ten', 'thirty'])
# items
self.assertEqual(s.items(), [(10,'ten'), (30, 'thirty')])
# get
self.assertEqual(s.get(10), 'ten')
self.assertEqual(s.get(15,'fifteen'), 'fifteen')
self.assertEqual(s.get(15), None)
# setdefault
self.assertEqual(s.setdefault(40, 'forty'), 'forty')
self.assertEqual(s.setdefault(10, 'null'), 'ten')
del s[40]
# pop
self.assertEqual(s.pop(10), 'ten')
self.assert_(10 not in s)
s[10] = 'ten'
self.assertEqual(s.pop("x", 1), 1)
s["x"] = 42
self.assertEqual(s.pop("x", 1), 42)
# popitem
k, v = s.popitem()
self.assert_(k not in s)
s[k] = v
# clear
s.clear()
self.assertEqual(len(s), 0)
# empty popitem
self.assertRaises(KeyError, s.popitem)
# update
s.update({10: 'ten', 20:'twenty'})
self.assertEqual(s[10], 'ten')
self.assertEqual(s[20], 'twenty')
# cmp
self.assertEqual(s, {10: 'ten', 20:'twenty'})
t = SeqDict()
t[20] = 'twenty'
t[10] = 'ten'
self.assertEqual(s, t)
def test_main():
test_support.run_unittest(
UserDictTest,
UserDictMixinTest
)
if __name__ == "__main__":
test_main()