Beispiel #1
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 def filter(nodes):
     return [
         node for node in nodes
         if (not (isinstance(node, ast.Expr)
                  and isinstance(node.value, ast.Call))
             or name_to_str(node.value.func) not in ignored_function_names)
     ]
Beispiel #2
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    def filter(body):
        nodes_to_unwrap = list(body)
        out = []

        while nodes_to_unwrap:
            node = nodes_to_unwrap.pop(0)
            if isinstance(node, ast.With):
                matches = True
                for context_expr, optional_vars in with_to_items(node):
                    if isinstance(context_expr, ast.Call):
                        if name_to_str(
                                context_expr.func) not in function_names:
                            matches = False
                            break
                    else:
                        matches = False
                        break

                if matches:
                    for child in reversed(node.body):
                        nodes_to_unwrap.insert(0, child)
                else:
                    out.append(node)
            else:
                out.append(node)

        return out
Beispiel #3
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    def compare_Call(self, n1, n2):
        # Allowed change no. 4 and 8

        # Test if the function name has changed in one of the expected ways
        allowed_name_changes = (
            ("read_bool", "serdes.bool"),
            ("read_nbits", "serdes.nbits"),
            ("read_uint_lit", "serdes.uint_lit"),
            ("read_uint_lit", "serdes.bytes"),
            ("read_uint", "serdes.uint"),
            ("read_uintb", "serdes.uint"),
            ("read_sint", "serdes.sint"),
            ("read_sintb", "serdes.sint"),
            ("byte_align", "serdes.byte_align"),
            ("flush_inputb", "serdes.bounded_block_end"),
        )
        name1 = name_to_str(n1.func)
        name2 = name_to_str(n2.func)
        name_change_allowed = (name1, name2) in allowed_name_changes

        # Check the former function takes 'state' as its first argument
        n1_takes_state_as_first_arg = (len(n1.args) >= 1
                                       and name_to_str(n1.args[0]) == "state")

        if name_change_allowed and n1_takes_state_as_first_arg:
            # Test if the arguments match (asside from an extra first argument
            # which will be 'state' in n1 and a target name in n2)
            return self.generic_compare(
                n1,
                n2,
                ignore_fields=["func"],
                # Ignores 'state' (in ref version) and 'serdes' (in impl.
                # version)
                filter_fields={"args": ignore_first_n(1)},
            )
        else:
            return self.generic_compare(
                n1,
                n2,
                # Allowed change no. 4
                filter_fields={
                    "args": (None, ignore_leading_call_arguments("serdes"))
                },
            )
Beispiel #4
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def test_with_to_items():
    with_items = []

    class MyNV(ast.NodeVisitor):
        def visit_With(self, node):
            with_items.extend(with_to_items(node))
            self.generic_visit(node)

    v = MyNV()
    v.visit(ast.parse("with foo() as bar, baz():\n  pass"))

    assert len(with_items) == 2

    assert isinstance(with_items[0][0], ast.Call)
    assert name_to_str(with_items[0][0].func) == "foo"
    assert isinstance(with_items[0][1], ast.Name)
    assert name_to_str(with_items[0][1]) == "bar"

    assert isinstance(with_items[1][0], ast.Call)
    assert name_to_str(with_items[1][0].func) == "baz"
    assert with_items[1][1] is None
Beispiel #5
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    def compare_Assign_Expr(self, n1, n2):
        # Allowed change no. 7

        # n1 must assign to state['bits_left']
        if len(n1.targets) != 1 or name_to_str(
                n1.targets[0]) != "state['bits_left']":
            return self.generic_compare(n1, n2)

        # n2 must contain a 'Call' to bounded_block_begin
        if (not isinstance(n2.value, ast.Call)
                or name_to_str(n2.value.func) != "serdes.bounded_block_begin"):
            return self.generic_compare(n1, n2)

        # n2 must have exactly one positional argument
        if (len(n2.value.args) != 1 or n2.value.keywords != [] or
                # Python 2.x only
                getattr(n2.value, "starargs", None) is not None
                or getattr(n2.value, "kwargs", None) is not None):
            return self.generic_compare(n1, n2)

        # n2's positional argument must exactly match the value assigned to
        # state['bits_left'] in the n1
        return self.generic_compare(n1.value, n2.value.args[0])
Beispiel #6
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    def compare_Dict_Call(self, n1, n2):
        # Allowed change no. 9
        is_empty_dict = len(n1.keys) == 0 and len(n1.values) == 0
        is_empty_constructor = (
            len(n2.args) == 0 and len(n2.keywords) == 0 and
            # Python 2.x
            getattr(n2, "starargs", None) is None
            and getattr(n2, "kwargs", None) is None)
        is_allowed_fixeddict = name_to_str(n2.func) in (
            "State",
            "VideoParameters",
        )

        if is_empty_dict and is_empty_constructor and is_allowed_fixeddict:
            return True
        else:
            return self.generic_compare(n1, n2)
Beispiel #7
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    def compare_Constant_Attribute(self, n1, n2):
        # Allowed change no. 3

        # Resolve the constant used
        name_parts = name_to_str(n2).split(".")
        value = tables
        for part in name_parts:
            if hasattr(value, part):
                value = getattr(value, part)
                print(value)
            else:
                value = None
                break

        # Must be same value as the literal
        if n1.n == value:
            return True
        else:
            return self.generic_compare(n1, n2)
Beispiel #8
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 def test_unknown(self):
     # Just don't crash...
     value = ast.Num(123)
     assert isinstance(name_to_str(value), str)
Beispiel #9
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 def test_unsupported_subscript(self):
     # Just don't crash...
     value = ast.Name("foo", ast.Load)
     slice = ast.Index(ast.Name("bar", ast.Load))
     subscript = ast.Subscript(value, slice, ast.Load)
     assert isinstance(name_to_str(subscript), str)
Beispiel #10
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 def test_num_subscript(self):
     value = ast.Name("foo", ast.Load)
     slice = ast.Index(ast.Num(123))
     subscript = ast.Subscript(value, slice, ast.Load)
     assert name_to_str(subscript) == "foo[123]"
Beispiel #11
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 def test_str_subscript(self):
     value = ast.Name("foo", ast.Load)
     slice = ast.Index(ast.Str("bar"))
     subscript = ast.Subscript(value, slice, ast.Load)
     assert name_to_str(subscript) == "foo['bar']"
Beispiel #12
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 def test_attribute(self):
     value = ast.Name("foo", ast.Load)
     attr = ast.Attribute(value, "bar", ast.Load)
     assert name_to_str(attr) == "foo.bar"
Beispiel #13
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 def test_name(self):
     name = ast.Name("foo", ast.Load)
     assert name_to_str(name) == "foo"
Beispiel #14
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 def filter(decorator_list):
     return [
         decorator for decorator in decorator_list
         if (name_to_str(decorator.func) if isinstance(decorator, ast.Call)
             else name_to_str(decorator)) not in ignored_decorator_names
     ]