Python operator 模块，__eq__() 实例源码

def test_dicts(self):
        # Verify that __eq__ and __ne__ work for dicts even if the keys and
        # values don't support anything other than __eq__ and __ne__ (and
        # __hash__).  Complex numbers are a fine example of that.
        import random
        imag1a = {}
        for i in range(50):
            imag1a[random.randrange(100)*1j] = random.randrange(100)*1j
        items = list(imag1a.items())
        random.shuffle(items)
        imag1b = {}
        for k, v in items:
            imag1b[k] = v
        imag2 = imag1b.copy()
        imag2[k] = v + 1.0
        self.assertEqual(imag1a, imag1a)
        self.assertEqual(imag1a, imag1b)
        self.assertEqual(imag2, imag2)
        self.assertTrue(imag1a != imag2)
        for opname in ("lt", "le", "gt", "ge"):
            for op in opmap[opname]:
                self.assertRaises(TypeError, op, imag1a, imag2)

def test_dicts(self):
        # Verify that __eq__ and __ne__ work for dicts even if the keys and
        # values don't support anything other than __eq__ and __ne__ (and
        # __hash__).  Complex numbers are a fine example of that.
        import random
        imag1a = {}
        for i in range(50):
            imag1a[random.randrange(100)*1j] = random.randrange(100)*1j
        items = imag1a.items()
        random.shuffle(items)
        imag1b = {}
        for k, v in items:
            imag1b[k] = v
        imag2 = imag1b.copy()
        imag2[k] = v + 1.0
        self.assertTrue(imag1a == imag1a)
        self.assertTrue(imag1a == imag1b)
        self.assertTrue(imag2 == imag2)
        self.assertTrue(imag1a != imag2)
        for opname in ("lt", "le", "gt", "ge"):
            for op in opmap[opname]:
                self.assertRaises(TypeError, op, imag1a, imag2)

def test_dicts(self):
        # Verify that __eq__ and __ne__ work for dicts even if the keys and
        # values don't support anything other than __eq__ and __ne__ (and
        # __hash__).  Complex numbers are a fine example of that.
        import random
        imag1a = {}
        for i in range(50):
            imag1a[random.randrange(100)*1j] = random.randrange(100)*1j
        items = imag1a.items()
        random.shuffle(items)
        imag1b = {}
        for k, v in items:
            imag1b[k] = v
        imag2 = imag1b.copy()
        imag2[k] = v + 1.0
        self.assertTrue(imag1a == imag1a)
        self.assertTrue(imag1a == imag1b)
        self.assertTrue(imag2 == imag2)
        self.assertTrue(imag1a != imag2)
        for opname in ("lt", "le", "gt", "ge"):
            for op in opmap[opname]:
                self.assertRaises(TypeError, op, imag1a, imag2)

def __cmp(self, op, other):
        if not isinstance(other, str):
            return NotImplemented

        # Do case-insensitive comparison?
        # Make copies to avoid infinite recursion.
        o = str(other)
        if o == o.lower():
            s = str(self.lower())
        else:
            s = str(self)

        if op in (operator.__eq__, operator.__ne__, operator.__contains__):
            return op(s, o)
        elif self.isdigit():
            return op(int(s), len(o))
        elif other.isdigit():
            return op(len(s), int(o))
        else:
            return op(s, o)

def test_dicts(self):
        # Verify that __eq__ and __ne__ work for dicts even if the keys and
        # values don't support anything other than __eq__ and __ne__ (and
        # __hash__).  Complex numbers are a fine example of that.
        import random
        imag1a = {}
        for i in range(50):
            imag1a[random.randrange(100)*1j] = random.randrange(100)*1j
        items = list(imag1a.items())
        random.shuffle(items)
        imag1b = {}
        for k, v in items:
            imag1b[k] = v
        imag2 = imag1b.copy()
        imag2[k] = v + 1.0
        self.assertEqual(imag1a, imag1a)
        self.assertEqual(imag1a, imag1b)
        self.assertEqual(imag2, imag2)
        self.assertTrue(imag1a != imag2)
        for opname in ("lt", "le", "gt", "ge"):
            for op in opmap[opname]:
                self.assertRaises(TypeError, op, imag1a, imag2)

def test_dicts(self):
        # Verify that __eq__ and __ne__ work for dicts even if the keys and
        # values don't support anything other than __eq__ and __ne__ (and
        # __hash__).  Complex numbers are a fine example of that.
        import random
        imag1a = {}
        for i in range(50):
            imag1a[random.randrange(100)*1j] = random.randrange(100)*1j
        items = imag1a.items()
        random.shuffle(items)
        imag1b = {}
        for k, v in items:
            imag1b[k] = v
        imag2 = imag1b.copy()
        imag2[k] = v + 1.0
        self.assertTrue(imag1a == imag1a)
        self.assertTrue(imag1a == imag1b)
        self.assertTrue(imag2 == imag2)
        self.assertTrue(imag1a != imag2)
        for opname in ("lt", "le", "gt", "ge"):
            for op in opmap[opname]:
                self.assertRaises(TypeError, op, imag1a, imag2)

def test_dicts(self):
        # Verify that __eq__ and __ne__ work for dicts even if the keys and
        # values don't support anything other than __eq__ and __ne__ (and
        # __hash__).  Complex numbers are a fine example of that.
        import random
        imag1a = {}
        for i in range(50):
            imag1a[random.randrange(100)*1j] = random.randrange(100)*1j
        items = list(imag1a.items())
        random.shuffle(items)
        imag1b = {}
        for k, v in items:
            imag1b[k] = v
        imag2 = imag1b.copy()
        imag2[k] = v + 1.0
        self.assertEqual(imag1a, imag1a)
        self.assertEqual(imag1a, imag1b)
        self.assertEqual(imag2, imag2)
        self.assertTrue(imag1a != imag2)
        for opname in ("lt", "le", "gt", "ge"):
            for op in opmap[opname]:
                self.assertRaises(TypeError, op, imag1a, imag2)

def test_dicts(self):
        # Verify that __eq__ and __ne__ work for dicts even if the keys and
        # values don't support anything other than __eq__ and __ne__ (and
        # __hash__).  Complex numbers are a fine example of that.
        import random
        imag1a = {}
        for i in range(50):
            imag1a[random.randrange(100)*1j] = random.randrange(100)*1j
        items = imag1a.items()
        random.shuffle(items)
        imag1b = {}
        for k, v in items:
            imag1b[k] = v
        imag2 = imag1b.copy()
        imag2[k] = v + 1.0
        self.assertTrue(imag1a == imag1a)
        self.assertTrue(imag1a == imag1b)
        self.assertTrue(imag2 == imag2)
        self.assertTrue(imag1a != imag2)
        for opname in ("lt", "le", "gt", "ge"):
            for op in opmap[opname]:
                self.assertRaises(TypeError, op, imag1a, imag2)

def test_dicts(self):
        # Verify that __eq__ and __ne__ work for dicts even if the keys and
        # values don't support anything other than __eq__ and __ne__ (and
        # __hash__).  Complex numbers are a fine example of that.
        import random
        imag1a = {}
        for i in range(50):
            imag1a[random.randrange(100)*1j] = random.randrange(100)*1j
        items = list(imag1a.items())
        random.shuffle(items)
        imag1b = {}
        for k, v in items:
            imag1b[k] = v
        imag2 = imag1b.copy()
        imag2[k] = v + 1.0
        self.assertEqual(imag1a, imag1a)
        self.assertEqual(imag1a, imag1b)
        self.assertEqual(imag2, imag2)
        self.assertTrue(imag1a != imag2)
        for opname in ("lt", "le", "gt", "ge"):
            for op in opmap[opname]:
                self.assertRaises(TypeError, op, imag1a, imag2)

def assert_array_equal(x, y, err_msg='', verbose=True):
    """
    Checks the elementwise equality of two masked arrays.

    """
    assert_array_compare(operator.__eq__, x, y,
                         err_msg=err_msg, verbose=verbose,
                         header='Arrays are not equal')

def __eq__(self, rhs):
        return op_relational(self, rhs, operator.__eq__)

def __eq__(self, rhs):
        return op_relational(self, rhs, operator.__eq__)

def __eq__(self, other):
        return self.x == other

def __eq__(self, other):
        return Vector([a == b for a, b in zip(self.data, self.__cast(other))])

def test_misbehavin(self):
        class Misb:
            def __lt__(self_, other): return 0
            def __gt__(self_, other): return 0
            def __eq__(self_, other): return 0
            def __le__(self_, other): self.fail("This shouldn't happen")
            def __ge__(self_, other): self.fail("This shouldn't happen")
            def __ne__(self_, other): self.fail("This shouldn't happen")
        a = Misb()
        b = Misb()
        self.assertEqual(a<b, 0)
        self.assertEqual(a==b, 0)
        self.assertEqual(a>b, 0)

def test_badentry(self):
        # make sure that exceptions for item comparison are properly
        # propagated in list comparisons
        class Exc(Exception):
            pass
        class Bad:
            def __eq__(self, other):
                raise Exc

        x = [Bad()]
        y = [Bad()]

        for op in opmap["eq"]:
            self.assertRaises(Exc, op, x, y)

def assert_array_equal(x, y, err_msg='', verbose=True):
    """
    Checks the elementwise equality of two masked arrays.

    """
    assert_array_compare(operator.__eq__, x, y,
                         err_msg=err_msg, verbose=verbose,
                         header='Arrays are not equal')

def __eq__(self, other):
        return self.x == other

def __eq__(self, other):
        return Vector([a == b for a, b in zip(self.data, self.__cast(other))])

def test_misbehavin(self):
        class Misb:
            def __lt__(self_, other): return 0
            def __gt__(self_, other): return 0
            def __eq__(self_, other): return 0
            def __le__(self_, other): self.fail("This shouldn't happen")
            def __ge__(self_, other): self.fail("This shouldn't happen")
            def __ne__(self_, other): self.fail("This shouldn't happen")
            def __cmp__(self_, other): raise RuntimeError, "expected"
        a = Misb()
        b = Misb()
        self.assertEqual(a<b, 0)
        self.assertEqual(a==b, 0)
        self.assertEqual(a>b, 0)
        self.assertRaises(RuntimeError, cmp, a, b)

def test_badentry(self):
        # make sure that exceptions for item comparison are properly
        # propagated in list comparisons
        class Exc(Exception):
            pass
        class Bad:
            def __eq__(self, other):
                raise Exc

        x = [Bad()]
        y = [Bad()]

        for op in opmap["eq"]:
            self.assertRaises(Exc, op, x, y)

def __eq__(self, other):
        return self.x == other

def __eq__(self, other):
        return Vector([a == b for a, b in zip(self.data, self.__cast(other))])

def test_misbehavin(self):
        class Misb:
            def __lt__(self_, other): return 0
            def __gt__(self_, other): return 0
            def __eq__(self_, other): return 0
            def __le__(self_, other): self.fail("This shouldn't happen")
            def __ge__(self_, other): self.fail("This shouldn't happen")
            def __ne__(self_, other): self.fail("This shouldn't happen")
            def __cmp__(self_, other): raise RuntimeError, "expected"
        a = Misb()
        b = Misb()
        self.assertEqual(a<b, 0)
        self.assertEqual(a==b, 0)
        self.assertEqual(a>b, 0)
        self.assertRaises(RuntimeError, cmp, a, b)

def test_badentry(self):
        # make sure that exceptions for item comparison are properly
        # propagated in list comparisons
        class Exc(Exception):
            pass
        class Bad:
            def __eq__(self, other):
                raise Exc

        x = [Bad()]
        y = [Bad()]

        for op in opmap["eq"]:
            self.assertRaises(Exc, op, x, y)

def __eq__(self, other):
        if isinstance(other, type(self)):
            for attr in ('_name', '_value', '_invert', '_op'):
                if getattr(self, attr) != getattr(other, attr):
                    return False
            return True
        else:
            return NotImplemented

def __eq__(self, other):
        if not isinstance(other, type(self)):
            return NotImplemented
        else:
            # Compare sets because order doesn't matter (foo&bar|baz is the
            # same as baz|bar&foo). Use frozensets because sets are not
            # hashable.
            self_fc_sets = set(frozenset(x) for x in self._filterchains)
            other_fc_sets = set(frozenset(x) for x in other._filterchains)
            return self_fc_sets == other_fc_sets

def __eq__(self, other): return self.__cmp(operator.eq, other)

def __eq__(self, other):
        return self.x == other

def __eq__(self, other):
        return Vector([a == b for a, b in zip(self.data, self.__cast(other))])

def test_misbehavin(self):
        class Misb:
            def __lt__(self_, other): return 0
            def __gt__(self_, other): return 0
            def __eq__(self_, other): return 0
            def __le__(self_, other): self.fail("This shouldn't happen")
            def __ge__(self_, other): self.fail("This shouldn't happen")
            def __ne__(self_, other): self.fail("This shouldn't happen")
        a = Misb()
        b = Misb()
        self.assertEqual(a<b, 0)
        self.assertEqual(a==b, 0)
        self.assertEqual(a>b, 0)

def test_badentry(self):
        # make sure that exceptions for item comparison are properly
        # propagated in list comparisons
        class Exc(Exception):
            pass
        class Bad:
            def __eq__(self, other):
                raise Exc

        x = [Bad()]
        y = [Bad()]

        for op in opmap["eq"]:
            self.assertRaises(Exc, op, x, y)

def assert_array_equal(x, y, err_msg='', verbose=True):
    """
    Checks the elementwise equality of two masked arrays.

    """
    assert_array_compare(operator.__eq__, x, y,
                         err_msg=err_msg, verbose=verbose,
                         header='Arrays are not equal')

def assert_array_equal(x, y, err_msg='', verbose=True):
    """
    Checks the elementwise equality of two masked arrays.

    """
    assert_array_compare(operator.__eq__, x, y,
                         err_msg=err_msg, verbose=verbose,
                         header='Arrays are not equal')

def __eq__(self, other):
        return self.x == other

def __eq__(self, other):
        return Vector([a == b for a, b in zip(self.data, self.__cast(other))])

def test_misbehavin(self):
        class Misb:
            def __lt__(self_, other): return 0
            def __gt__(self_, other): return 0
            def __eq__(self_, other): return 0
            def __le__(self_, other): self.fail("This shouldn't happen")
            def __ge__(self_, other): self.fail("This shouldn't happen")
            def __ne__(self_, other): self.fail("This shouldn't happen")
            def __cmp__(self_, other): raise RuntimeError, "expected"
        a = Misb()
        b = Misb()
        self.assertEqual(a<b, 0)
        self.assertEqual(a==b, 0)
        self.assertEqual(a>b, 0)
        self.assertRaises(RuntimeError, cmp, a, b)

def test_badentry(self):
        # make sure that exceptions for item comparison are properly
        # propagated in list comparisons
        class Exc(Exception):
            pass
        class Bad:
            def __eq__(self, other):
                raise Exc

        x = [Bad()]
        y = [Bad()]

        for op in opmap["eq"]:
            self.assertRaises(Exc, op, x, y)

def __eq__(self, other):
        return self.x == other

def __eq__(self, other):
        return Vector([a == b for a, b in zip(self.data, self.__cast(other))])

def test_misbehavin(self):
        class Misb:
            def __lt__(self_, other): return 0
            def __gt__(self_, other): return 0
            def __eq__(self_, other): return 0
            def __le__(self_, other): self.fail("This shouldn't happen")
            def __ge__(self_, other): self.fail("This shouldn't happen")
            def __ne__(self_, other): self.fail("This shouldn't happen")
        a = Misb()
        b = Misb()
        self.assertEqual(a<b, 0)
        self.assertEqual(a==b, 0)
        self.assertEqual(a>b, 0)

def test_badentry(self):
        # make sure that exceptions for item comparison are properly
        # propagated in list comparisons
        class Exc(Exception):
            pass
        class Bad:
            def __eq__(self, other):
                raise Exc

        x = [Bad()]
        y = [Bad()]

        for op in opmap["eq"]:
            self.assertRaises(Exc, op, x, y)

def __eq__(self, other):
        return self.x == other

def __eq__(self, other):
        return Vector([a == b for a, b in zip(self.data, self.__cast(other))])

def test_misbehavin(self):
        class Misb:
            def __lt__(self_, other): return 0
            def __gt__(self_, other): return 0
            def __eq__(self_, other): return 0
            def __le__(self_, other): self.fail("This shouldn't happen")
            def __ge__(self_, other): self.fail("This shouldn't happen")
            def __ne__(self_, other): self.fail("This shouldn't happen")
            def __cmp__(self_, other): raise RuntimeError, "expected"
        a = Misb()
        b = Misb()
        self.assertEqual(a<b, 0)
        self.assertEqual(a==b, 0)
        self.assertEqual(a>b, 0)
        self.assertRaises(RuntimeError, cmp, a, b)

def test_badentry(self):
        # make sure that exceptions for item comparison are properly
        # propagated in list comparisons
        class Exc(Exception):
            pass
        class Bad:
            def __eq__(self, other):
                raise Exc

        x = [Bad()]
        y = [Bad()]

        for op in opmap["eq"]:
            self.assertRaises(Exc, op, x, y)

def assert_array_equal(x, y, err_msg='', verbose=True):
    """
    Checks the elementwise equality of two masked arrays.

    """
    assert_array_compare(operator.__eq__, x, y,
                         err_msg=err_msg, verbose=verbose,
                         header='Arrays are not equal')

def assert_array_equal(x, y, err_msg='', verbose=True):
    """
    Checks the elementwise equality of two masked arrays.

    """
    assert_array_compare(operator.__eq__, x, y,
                         err_msg=err_msg, verbose=verbose,
                         header='Arrays are not equal')

def __eq__(self, other):
        return self.x == other

def __eq__(self, other):
        return Vector([a == b for a, b in zip(self.data, self.__cast(other))])