python类ne()的实例源码

def test_symbols():
    N, C, H, W = 2,3,4,5
    a = np.random.random((N, C, H, W))
    b = np.random.random((N, C, H, W))
    [la, lb] = L.Data([a,b])
    eq = M.equal(la, lb)
    ne = M.not_equal(la, lb)
    ge = M.greater_equal(la, lb)
    gt = M.greater(la, lb)
    le = M.less_equal(la, lb)
    lt = M.less(la, lb)

    lops = [eq,ne,ge,gt,le,lt]
    ops = [operator.eq, operator.ne, operator.ge, operator.gt, operator.le, operator.lt]
    for l, op in zip(lops, ops):
        assert l.op == op

def test_compare_symbols():
    N, C, H, W = 2,3,4,5
    a = np.random.random((N, C, H, W))
    b = np.random.random((N, C, H, W))
    [la, lb] = L.Data([a,b])
    eq = M.equal(la, lb)
    ne = M.not_equal(la, lb)
    ge = (la >= lb)
    gt = (la > lb)
    le = (la <= lb)
    lt = (la < lb)

    lops = [eq,ne,ge,gt,le,lt]
    ops = [operator.eq, operator.ne, operator.ge, operator.gt, operator.le, operator.lt]
    for l, op in zip(lops, ops):
        assert l.op == op

def get_op(cls, op):
        ops = {
            symbol.test: cls.test,
            symbol.and_test: cls.and_test,
            symbol.atom: cls.atom,
            symbol.comparison: cls.comparison,
            'not in': lambda x, y: x not in y,
            'in': lambda x, y: x in y,
            '==': operator.eq,
            '!=': operator.ne,
            '<':  operator.lt,
            '>':  operator.gt,
            '<=': operator.le,
            '>=': operator.ge,
        }
        if hasattr(symbol, 'or_test'):
            ops[symbol.or_test] = cls.test
        return ops[op]

def get_op(cls, op):
        ops = {
            symbol.test: cls.test,
            symbol.and_test: cls.and_test,
            symbol.atom: cls.atom,
            symbol.comparison: cls.comparison,
            'not in': lambda x, y: x not in y,
            'in': lambda x, y: x in y,
            '==': operator.eq,
            '!=': operator.ne,
            '<':  operator.lt,
            '>':  operator.gt,
            '<=': operator.le,
            '>=': operator.ge,
        }
        if hasattr(symbol, 'or_test'):
            ops[symbol.or_test] = cls.test
        return ops[op]

def test_values(self):
        # check all operators and all comparison results
        self.checkvalue("lt", 0, 0, False)
        self.checkvalue("le", 0, 0, True )
        self.checkvalue("eq", 0, 0, True )
        self.checkvalue("ne", 0, 0, False)
        self.checkvalue("gt", 0, 0, False)
        self.checkvalue("ge", 0, 0, True )

        self.checkvalue("lt", 0, 1, True )
        self.checkvalue("le", 0, 1, True )
        self.checkvalue("eq", 0, 1, False)
        self.checkvalue("ne", 0, 1, True )
        self.checkvalue("gt", 0, 1, False)
        self.checkvalue("ge", 0, 1, False)

        self.checkvalue("lt", 1, 0, False)
        self.checkvalue("le", 1, 0, False)
        self.checkvalue("eq", 1, 0, False)
        self.checkvalue("ne", 1, 0, True )
        self.checkvalue("gt", 1, 0, True )
        self.checkvalue("ge", 1, 0, True )

def test_values(self):
        # check all operators and all comparison results
        self.checkvalue("lt", 0, 0, False)
        self.checkvalue("le", 0, 0, True )
        self.checkvalue("eq", 0, 0, True )
        self.checkvalue("ne", 0, 0, False)
        self.checkvalue("gt", 0, 0, False)
        self.checkvalue("ge", 0, 0, True )

        self.checkvalue("lt", 0, 1, True )
        self.checkvalue("le", 0, 1, True )
        self.checkvalue("eq", 0, 1, False)
        self.checkvalue("ne", 0, 1, True )
        self.checkvalue("gt", 0, 1, False)
        self.checkvalue("ge", 0, 1, False)

        self.checkvalue("lt", 1, 0, False)
        self.checkvalue("le", 1, 0, False)
        self.checkvalue("eq", 1, 0, False)
        self.checkvalue("ne", 1, 0, True )
        self.checkvalue("gt", 1, 0, True )
        self.checkvalue("ge", 1, 0, True )

def test_richcompare(self):
        self.assertIs(complex.__eq__(1+1j, 1<<10000), False)
        self.assertIs(complex.__lt__(1+1j, None), NotImplemented)
        self.assertIs(complex.__eq__(1+1j, 1+1j), True)
        self.assertIs(complex.__eq__(1+1j, 2+2j), False)
        self.assertIs(complex.__ne__(1+1j, 1+1j), False)
        self.assertIs(complex.__ne__(1+1j, 2+2j), True)
        for i in range(1, 100):
            f = i / 100.0
            self.assertIs(complex.__eq__(f+0j, f), True)
            self.assertIs(complex.__ne__(f+0j, f), False)
            self.assertIs(complex.__eq__(complex(f, f), f), False)
            self.assertIs(complex.__ne__(complex(f, f), f), True)
        self.assertIs(complex.__lt__(1+1j, 2+2j), NotImplemented)
        self.assertIs(complex.__le__(1+1j, 2+2j), NotImplemented)
        self.assertIs(complex.__gt__(1+1j, 2+2j), NotImplemented)
        self.assertIs(complex.__ge__(1+1j, 2+2j), NotImplemented)
        self.assertRaises(TypeError, operator.lt, 1+1j, 2+2j)
        self.assertRaises(TypeError, operator.le, 1+1j, 2+2j)
        self.assertRaises(TypeError, operator.gt, 1+1j, 2+2j)
        self.assertRaises(TypeError, operator.ge, 1+1j, 2+2j)
        self.assertIs(operator.eq(1+1j, 1+1j), True)
        self.assertIs(operator.eq(1+1j, 2+2j), False)
        self.assertIs(operator.ne(1+1j, 1+1j), False)
        self.assertIs(operator.ne(1+1j, 2+2j), True)

def test_values(self):
        # check all operators and all comparison results
        self.checkvalue("lt", 0, 0, False)
        self.checkvalue("le", 0, 0, True )
        self.checkvalue("eq", 0, 0, True )
        self.checkvalue("ne", 0, 0, False)
        self.checkvalue("gt", 0, 0, False)
        self.checkvalue("ge", 0, 0, True )

        self.checkvalue("lt", 0, 1, True )
        self.checkvalue("le", 0, 1, True )
        self.checkvalue("eq", 0, 1, False)
        self.checkvalue("ne", 0, 1, True )
        self.checkvalue("gt", 0, 1, False)
        self.checkvalue("ge", 0, 1, False)

        self.checkvalue("lt", 1, 0, False)
        self.checkvalue("le", 1, 0, False)
        self.checkvalue("eq", 1, 0, False)
        self.checkvalue("ne", 1, 0, True )
        self.checkvalue("gt", 1, 0, True )
        self.checkvalue("ge", 1, 0, True )

def get_op(cls, op):
        ops = {
            symbol.test: cls.test,
            symbol.and_test: cls.and_test,
            symbol.atom: cls.atom,
            symbol.comparison: cls.comparison,
            'not in': lambda x, y: x not in y,
            'in': lambda x, y: x in y,
            '==': operator.eq,
            '!=': operator.ne,
            '<':  operator.lt,
            '>':  operator.gt,
            '<=': operator.le,
            '>=': operator.ge,
        }
        if hasattr(symbol, 'or_test'):
            ops[symbol.or_test] = cls.test
        return ops[op]

def get_op(cls, op):
        ops = {
            symbol.test: cls.test,
            symbol.and_test: cls.and_test,
            symbol.atom: cls.atom,
            symbol.comparison: cls.comparison,
            'not in': lambda x, y: x not in y,
            'in': lambda x, y: x in y,
            '==': operator.eq,
            '!=': operator.ne,
            '<':  operator.lt,
            '>':  operator.gt,
            '<=': operator.le,
            '>=': operator.ge,
        }
        if hasattr(symbol, 'or_test'):
            ops[symbol.or_test] = cls.test
        return ops[op]

def get_op(cls, op):
        ops = {
            symbol.test: cls.test,
            symbol.and_test: cls.and_test,
            symbol.atom: cls.atom,
            symbol.comparison: cls.comparison,
            'not in': lambda x, y: x not in y,
            'in': lambda x, y: x in y,
            '==': operator.eq,
            '!=': operator.ne,
            '<':  operator.lt,
            '>':  operator.gt,
            '<=': operator.le,
            '>=': operator.ge,
        }
        if hasattr(symbol, 'or_test'):
            ops[symbol.or_test] = cls.test
        return ops[op]

def get_op(cls, op):
        ops = {
            symbol.test: cls.test,
            symbol.and_test: cls.and_test,
            symbol.atom: cls.atom,
            symbol.comparison: cls.comparison,
            'not in': lambda x, y: x not in y,
            'in': lambda x, y: x in y,
            '==': operator.eq,
            '!=': operator.ne,
            '<':  operator.lt,
            '>':  operator.gt,
            '<=': operator.le,
            '>=': operator.ge,
        }
        if hasattr(symbol, 'or_test'):
            ops[symbol.or_test] = cls.test
        return ops[op]

def get_op(cls, op):
        ops = {
            symbol.test: cls.test,
            symbol.and_test: cls.and_test,
            symbol.atom: cls.atom,
            symbol.comparison: cls.comparison,
            'not in': lambda x, y: x not in y,
            'in': lambda x, y: x in y,
            '==': operator.eq,
            '!=': operator.ne,
            '<':  operator.lt,
            '>':  operator.gt,
            '<=': operator.le,
            '>=': operator.ge,
        }
        if hasattr(symbol, 'or_test'):
            ops[symbol.or_test] = cls.test
        return ops[op]

def get_op(cls, op):
        ops = {
            symbol.test: cls.test,
            symbol.and_test: cls.and_test,
            symbol.atom: cls.atom,
            symbol.comparison: cls.comparison,
            'not in': lambda x, y: x not in y,
            'in': lambda x, y: x in y,
            '==': operator.eq,
            '!=': operator.ne,
            '<':  operator.lt,
            '>':  operator.gt,
            '<=': operator.le,
            '>=': operator.ge,
        }
        if hasattr(symbol, 'or_test'):
            ops[symbol.or_test] = cls.test
        return ops[op]

def get_op(cls, op):
        ops = {
            symbol.test: cls.test,
            symbol.and_test: cls.and_test,
            symbol.atom: cls.atom,
            symbol.comparison: cls.comparison,
            'not in': lambda x, y: x not in y,
            'in': lambda x, y: x in y,
            '==': operator.eq,
            '!=': operator.ne,
            '<':  operator.lt,
            '>':  operator.gt,
            '<=': operator.le,
            '>=': operator.ge,
        }
        if hasattr(symbol, 'or_test'):
            ops[symbol.or_test] = cls.test
        return ops[op]

def test_richcompare_crash(self):
        # gh-4613
        import operator as op

        # dummy class where __array__ throws exception
        class Foo(object):
            __array_priority__ = 1002

            def __array__(self,*args,**kwargs):
                raise Exception()

        rhs = Foo()
        lhs = np.array(1)
        for f in [op.lt, op.le, op.gt, op.ge]:
            if sys.version_info[0] >= 3:
                assert_raises(TypeError, f, lhs, rhs)
            else:
                f(lhs, rhs)
        assert_(not op.eq(lhs, rhs))
        assert_(op.ne(lhs, rhs))

def get_op(cls, op):
        ops = {
            symbol.test: cls.test,
            symbol.and_test: cls.and_test,
            symbol.atom: cls.atom,
            symbol.comparison: cls.comparison,
            'not in': lambda x, y: x not in y,
            'in': lambda x, y: x in y,
            '==': operator.eq,
            '!=': operator.ne,
            '<':  operator.lt,
            '>':  operator.gt,
            '<=': operator.le,
            '>=': operator.ge,
        }
        if hasattr(symbol, 'or_test'):
            ops[symbol.or_test] = cls.test
        return ops[op]

def get_op(cls, op):
        ops = {
            symbol.test: cls.test,
            symbol.and_test: cls.and_test,
            symbol.atom: cls.atom,
            symbol.comparison: cls.comparison,
            'not in': lambda x, y: x not in y,
            'in': lambda x, y: x in y,
            '==': operator.eq,
            '!=': operator.ne,
            '<':  operator.lt,
            '>':  operator.gt,
            '<=': operator.le,
            '>=': operator.ge,
        }
        if hasattr(symbol, 'or_test'):
            ops[symbol.or_test] = cls.test
        return ops[op]

def __ne__(self, trc):
        return self.apply_op2(trc, operator.ne).binarize()

def __ne__(self, other):
        return self._op(other, operator.ne)