cpython/Lib/test/test_slice.py

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# tests for slice objects; in particular the indices method.
import unittest
from test import test_support
import sys
class SliceTest(unittest.TestCase):
def test_constructor(self):
self.assertRaises(TypeError, slice)
self.assertRaises(TypeError, slice, 1, 2, 3, 4)
def test_repr(self):
self.assertEqual(repr(slice(1, 2, 3)), "slice(1, 2, 3)")
def test_hash(self):
# Verify clearing of SF bug #800796
self.assertRaises(TypeError, hash, slice(5))
self.assertRaises(TypeError, slice(5).__hash__)
def test_cmp(self):
s1 = slice(1, 2, 3)
s2 = slice(1, 2, 3)
s3 = slice(1, 2, 4)
self.assertEqual(s1, s2)
self.assertNotEqual(s1, s3)
class Exc(Exception):
pass
class BadCmp(object):
def __eq__(self, other):
raise Exc
s1 = slice(BadCmp())
s2 = slice(BadCmp())
self.assertEqual(s1, s1)
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...
2006-08-23 21:41:19 -03:00
self.assertRaises(Exc, lambda: s1 == s2)
s1 = slice(1, BadCmp())
s2 = slice(1, BadCmp())
self.assertEqual(s1, s1)
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...
2006-08-23 21:41:19 -03:00
self.assertRaises(Exc, lambda: s1 == s2)
s1 = slice(1, 2, BadCmp())
s2 = slice(1, 2, BadCmp())
self.assertEqual(s1, s1)
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...
2006-08-23 21:41:19 -03:00
self.assertRaises(Exc, lambda: s1 == s2)
def test_members(self):
s = slice(1)
self.assertEqual(s.start, None)
self.assertEqual(s.stop, 1)
self.assertEqual(s.step, None)
s = slice(1, 2)
self.assertEqual(s.start, 1)
self.assertEqual(s.stop, 2)
self.assertEqual(s.step, None)
s = slice(1, 2, 3)
self.assertEqual(s.start, 1)
self.assertEqual(s.stop, 2)
self.assertEqual(s.step, 3)
class AnyClass:
pass
obj = AnyClass()
s = slice(obj)
self.assert_(s.stop is obj)
def test_indices(self):
self.assertEqual(slice(None ).indices(10), (0, 10, 1))
self.assertEqual(slice(None, None, 2).indices(10), (0, 10, 2))
self.assertEqual(slice(1, None, 2).indices(10), (1, 10, 2))
self.assertEqual(slice(None, None, -1).indices(10), (9, -1, -1))
self.assertEqual(slice(None, None, -2).indices(10), (9, -1, -2))
self.assertEqual(slice(3, None, -2).indices(10), (3, -1, -2))
self.assertEqual(
slice(-100, 100 ).indices(10),
slice(None).indices(10)
)
self.assertEqual(
slice(100, -100, -1).indices(10),
slice(None, None, -1).indices(10)
)
self.assertEqual(slice(-100L, 100L, 2L).indices(10), (0, 10, 2))
self.assertEqual(range(10)[::sys.maxint - 1], [0])
self.assertRaises(OverflowError, slice(None).indices, 1L<<100)
def test_main():
test_support.run_unittest(SliceTest)
if __name__ == "__main__":
test_main()