示例#1
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 def __init__(self) -> None:
     CSTVisitor.__init__(self)
     # List of gating matchers that we need to track and evaluate. We use these
     # in conjuction with the call_if_inside and call_if_not_inside decorators
     # to determine whether or not to call a visit/leave function.
     self._matchers: Dict[BaseMatcherNode, Optional[cst.CSTNode]] = {
         m: None for m in _gather_matchers(self)
     }
     # Mapping of matchers to functions. If in the course of visiting the tree,
     # a node matches one of these matchers, the corresponding function will be
     # called as if it was a visit_* method.
     self._extra_visit_funcs: Dict[
         BaseMatcherNode, Sequence[Callable[[cst.CSTNode], None]]
     ] = _gather_constructed_visit_funcs(self)
     # Mapping of matchers to functions. If in the course of leaving the tree,
     # a node matches one of these matchers, the corresponding function will be
     # called as if it was a leave_* method.
     self._extra_leave_funcs: Dict[
         BaseMatcherNode, Sequence[Callable[[cst.CSTNode], None]]
     ] = _gather_constructed_leave_funcs(self)
     # Make sure visit/leave functions constructed with @visit and @leave decorators
     # have correct type annotations.
     _check_types(
         self._extra_visit_funcs,
         "visit",
         expected_param_count=1,
         expected_none_return=True,
     )
     _check_types(
         self._extra_leave_funcs,
         "leave",
         expected_param_count=1,
         expected_none_return=True,
     )
示例#2
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 def on_leave_attribute(self, original_node: cst.CSTNode, attribute: str) -> None:
     # Evaluate whether this current function has a decorator on it.
     if _should_allow_visit(
         self._matchers,
         getattr(self, f"leave_{type(original_node).__name__}_{attribute}", None),
     ):
         # Either the visit_func doesn't exist, we have no matchers, or we passed all
         # matchers. In either case, just call the superclass behavior.
         CSTVisitor.on_leave_attribute(self, original_node, attribute)
示例#3
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    def on_leave(self, original_node: cst.CSTNode) -> None:
        # First, evaluate whether this current function has a decorator on it.
        if _should_allow_visit(
            self._matchers, getattr(self, f"leave_{type(original_node).__name__}", None)
        ):
            CSTVisitor.on_leave(self, original_node)

        # Now, call any visitors that were hooked using a leave decorator.
        for matcher, leave_funcs in reversed(list(self._extra_leave_funcs.items())):
            if not self.matches(original_node, matcher):
                continue
            for leave_func in leave_funcs:
                if _should_allow_visit(self._matchers, leave_func):
                    leave_func(original_node)

        # Now, see if we have any matchers we should deactivate.
        self._matchers = _leave_matchers(self._matchers, original_node)
示例#4
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    def on_visit(self, node: cst.CSTNode) -> bool:
        # First, evaluate any matchers that we have which we are not inside already.
        self._matchers = _visit_matchers(self._matchers, node, self)

        # Now, call any visitors that were hooked using a visit decorator.
        _visit_constructed_funcs(self._extra_visit_funcs, self._matchers, node, self)

        # Now, evaluate whether this current function has a decorator on it.
        if not _should_allow_visit(
            self._matchers, getattr(self, f"visit_{type(node).__name__}", None)
        ):
            # We shouldn't visit this directly. However, we should continue
            # visiting its children.
            return True

        # Either the visit_func doesn't exist, we have no matchers, or we passed all
        # matchers. In either case, just call the superclass behavior.
        return CSTVisitor.on_visit(self, node)