Esempio n. 1
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    def test_evaluate(self):
        obj = Pow(Number(2), Number(2))
        self.assertEqual(obj.evaluate(), 4)

        obj = Pow(Number(2.0), String('a'))
        with self.assertRaises(DslSyntaxError):
            obj.evaluate()
Esempio n. 2
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    def test_call_functions_without_pending_call_stack(self):
        fc = FunctionCall(Name('f'), [Name('x')])
        fd = FunctionDef('f', [FunctionArg('a', '')], Name('a'), [])
        number1 = Number(1234)
        number2 = Number(2345)
        ns1 = DslNamespace({
            'f': fd,
            'x': number1,
        })
        ns2 = DslNamespace({
            'f': fd,
            'x': number2,
        })

        # Call functions with pending call stack.
        queue = Mock()
        fc1 = fc.substitute_names(ns1)
        fc2 = fc.substitute_names(ns2)
        self.assertNotEqual(fd.create_hash(fc1), fd.create_hash(fc2))

        t1 = datetime.datetime(2011, 1, 1)
        expr = fc1.call_functions(pending_call_stack=queue, present_time=t1)

        # Check we got a stub.
        self.assertIsInstance(expr, Stub)
        self.assertEqual(queue.put.call_count, 1)

        # Check the call to the stub was queued.
        first_call = queue.put.mock_calls[0]
        self.assertEqual(first_call[2]['stub_id'], expr.name)
        self.assertEqual(first_call[2]['stacked_function_def'], fd)
        self.assertEqual(first_call[2]['stacked_locals'], {'a': 1234})  # Maybe this should be Number(1234)?
        self.assertEqual(first_call[2]['present_time'], t1)
Esempio n. 3
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 def test_substitute_names(self):
     fc = FunctionCall(Name('f'), [Name('x')])
     fd = FunctionDef('f', [], Name('a'), [])
     ns = DslNamespace({
         'f': fd,
         'x': Number(1),
     })
     fc1 = fc.substitute_names(ns)
     self.assertEqual(fc1.functionDef, fd)
     self.assertEqual(fc1.callArgExprs[0], Number(1))
Esempio n. 4
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    def test_evaluate(self):
        obj = Add(Number(1), Number(1))
        self.assertEqual(obj.evaluate(), 2)

        obj = Add(String('a'), String('b'))
        self.assertEqual(obj.evaluate(), 'ab')

        obj = Add(Number(1), String('a'))
        with self.assertRaises(DslSyntaxError):
            obj.evaluate()
Esempio n. 5
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    def test_evaluate(self):
        obj = Sub(Number(1), Number(1))
        self.assertEqual(obj.evaluate(), 0)

        obj = Sub(Number(1), String('a'))
        with self.assertRaises(DslSyntaxError):
            obj.evaluate()

        obj = Sub(Date('2011-1-2'), Date('2011-1-1'))
        self.assertEqual(obj.evaluate(), relativedelta(days=1))
Esempio n. 6
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    def test_value(self):
        # Integers are ok.
        obj = Number(1)
        self.assertEqual(obj.value, 1)

        # Floats are ok.
        obj = Number(1.1)
        self.assertEqual(obj.value, 1.1)

        # Numpy arrays are ok.
        obj = Number(array([1, 2]))
        self.assertEqual(list(obj.value), list(array([1, 2])))

        # No args is not ok.
        with self.assertRaises(DslSyntaxError):
            Number()

        # Two args is not ok.
        with self.assertRaises(DslSyntaxError):
            Number(1, 1.1)

        # A list is not ok.
        with self.assertRaises(DslSyntaxError):
            Number([1, 1.1])

        # A string is not ok.
        with self.assertRaises(DslSyntaxError):
            Number('1')
Esempio n. 7
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    def test_evaluate(self):
        obj = Min(Number(1), Number(2))
        self.assertEqual(obj.evaluate(), 1)

        obj = Min(Number(1), Number(array([1, 2, 3])))
        self.assertEqual(list(obj.evaluate()), list(array([1, 1, 1])))

        obj = Min(Number(2), Number(array([1, 2, 3])))
        self.assertEqual(list(obj.evaluate()), list(array([1, 2, 2])))

        obj = Min(Number(array([3, 2, 1])), Number(array([1, 2, 3])))
        self.assertEqual(list(obj.evaluate()), list(array([1, 2, 1])))
Esempio n. 8
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    def test_evaluate(self):
        obj = Or([Number(1), Number(1)])
        self.assertTrue(obj.evaluate())

        obj = Or([Number(1), Number(0)])
        self.assertTrue(obj.evaluate())

        obj = Or([Number(0), Number(1)])
        self.assertTrue(obj.evaluate())

        obj = Or([Number(0), Number(0)])
        self.assertFalse(obj.evaluate())
Esempio n. 9
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    def test_substitute(self):
        # Maybe if Name can take a string, perhaps also other things can?
        # Maybe the parser should return Python string, numbers etc?
        # Maybe String and Number etc don't add anything?
        obj = Name('a')
        self.assertEqual(obj.name, 'a')

        obj = Name(String('a'))
        self.assertEqual(obj.name, 'a')

        ns = DslNamespace()
        with self.assertRaises(DslNameError):
            obj.substitute_names(ns)

        ns = DslNamespace({'a': 1})
        self.assertEqual(obj.substitute_names(ns), Number(1))

        ns = DslNamespace({'a': datetime.timedelta(1)})
        self.assertEqual(obj.substitute_names(ns), TimeDelta(datetime.timedelta(1)))

        function_def = FunctionDef('f', [], Number(1), [])
        ns = DslNamespace({'a': function_def})
        self.assertEqual(obj.substitute_names(ns), function_def)
Esempio n. 10
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    def test_call_functions_with_pending_call_stack(self):
        fc = FunctionCall(Name('f'), [Name('x')])
        fd = FunctionDef('f', [FunctionArg('a', '')], Name('a'), [])
        namespace = DslNamespace({fd.name: fd})
        fd.module_namespace = namespace
        number = Number(1234)
        ns = DslNamespace({
            'f': fd,
            'x': number,
        })

        # Substitute names.
        fc1 = fc.substitute_names(ns)
        self.assertEqual(fc1.functionDef, fd)
        self.assertEqual(fc1.callArgExprs[0], number)

        # Call functions.
        expr = fc1.call_functions()
        self.assertEqual(expr, number)
Esempio n. 11
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    def test_evaluate(self):
        obj = Div(Number(5), Number(2))
        self.assertEqual(obj.evaluate(), 2.5)

        obj = Div(TimeDelta(String('2d')), Number(2))
        self.assertEqual(obj.evaluate(), relativedelta(days=1))

        obj = Div(Number(5), Number(0))
        with self.assertRaises(ZeroDivisionError):
            obj.evaluate()

        obj = Div(Number(2.1), String('a'))
        with self.assertRaises(DslSyntaxError):
            obj.evaluate()
Esempio n. 12
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    def test_evaluate(self):
        obj = Max(Number(1), Number(2))
        self.assertEqual(obj.evaluate(), 2)

        obj = Max(Number(1), Number(array([1, 2, 3])))
        self.assertEqual(list(obj.evaluate()), list(array([1, 2, 3])))

        obj = Max(Number(2), Number(array([1, 2, 3])))
        self.assertEqual(list(obj.evaluate()), list(array([2, 2, 3])))

        obj = Max(Number(array([3, 2, 1])), Number(array([1, 2, 3])))
        self.assertEqual(list(obj.evaluate()), list(array([3, 2, 3])))

        # Swap args.
        obj = Max(Number(array([1, 2, 3])), Number(1))
        self.assertEqual(list(obj.evaluate()), list(array([1, 2, 3])))

        obj = Max(Number(array([1, 2, 3])), Number(2))
        self.assertEqual(list(obj.evaluate()), list(array([2, 2, 3])))

        obj = Max(Number(array([1, 2, 3])), Number(array([3, 2, 1])))
        self.assertEqual(list(obj.evaluate()), list(array([3, 2, 3])))
Esempio n. 13
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 def test_str(self):
     obj = And([Number(1), Or([Number(2), Number(3)])])
     self.assertEqual(str(obj), '(1 and (2 or 3))')
     # Check the indentation isn't propagated.
     self.assertEqual(str(obj), '(1 and (2 or 3))')
Esempio n. 14
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 def test_str(self):
     obj = Or([Number(1), Number(2), Number(3)])
     self.assertEqual(str(obj), '(1 or 2 or 3)')
Esempio n. 15
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 def test_str(self):
     obj = And([Number(1), Number(2), Number(3)])
     self.assertEqual(str(obj), '(1 and 2 and 3)')
Esempio n. 16
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 def test_str(self):
     obj = Number(1)
     self.assertEqual(str(obj), '1')
     self.assertEqual(str(Subclass(obj)), 'Subclass(1)')