from copy import copy from enum import Enum from typing import ( Any, Callable, Collection, Dict, List, NamedTuple, Optional, Tuple, Union, ) from ..pyutils import inspect, snake_to_camel from . import ast from .ast import QUERY_DOCUMENT_KEYS, Node __all__ = [ "Visitor", "ParallelVisitor", "VisitorAction", "visit", "BREAK", "SKIP", "REMOVE", "IDLE", ] class VisitorActionEnum(Enum): """Special return values for the visitor methods. You can also use the values of this enum directly. """ BREAK = True SKIP = False REMOVE = Ellipsis VisitorAction = Optional[VisitorActionEnum] # Note that in GraphQL.js these are defined differently: # BREAK = {}, SKIP = false, REMOVE = null, IDLE = undefined BREAK = VisitorActionEnum.BREAK SKIP = VisitorActionEnum.SKIP REMOVE = VisitorActionEnum.REMOVE IDLE = None VisitorKeyMap = Dict[str, Tuple[str, ...]] class EnterLeaveVisitor(NamedTuple): """Visitor with functions for entering and leaving.""" enter: Optional[Callable[..., Optional[VisitorAction]]] leave: Optional[Callable[..., Optional[VisitorAction]]] class Visitor: """Visitor that walks through an AST. Visitors can define two generic methods "enter" and "leave". The former will be called when a node is entered in the traversal, the latter is called after visiting the node and its child nodes. These methods have the following signature:: def enter(self, node, key, parent, path, ancestors): # The return value has the following meaning: # IDLE (None): no action # SKIP: skip visiting this node # BREAK: stop visiting altogether # REMOVE: delete this node # any other value: replace this node with the returned value return def leave(self, node, key, parent, path, ancestors): # The return value has the following meaning: # IDLE (None) or SKIP: no action # BREAK: stop visiting altogether # REMOVE: delete this node # any other value: replace this node with the returned value return The parameters have the following meaning: :arg node: The current node being visiting. :arg key: The index or key to this node from the parent node or Array. :arg parent: the parent immediately above this node, which may be an Array. :arg path: The key path to get to this node from the root node. :arg ancestors: All nodes and Arrays visited before reaching parent of this node. These correspond to array indices in ``path``. Note: ancestors includes arrays which contain the parent of visited node. You can also define node kind specific methods by suffixing them with an underscore followed by the kind of the node to be visited. For instance, to visit ``field`` nodes, you would defined the methods ``enter_field()`` and/or ``leave_field()``, with the same signature as above. If no kind specific method has been defined for a given node, the generic method is called. """ # Provide special return values as attributes BREAK, SKIP, REMOVE, IDLE = BREAK, SKIP, REMOVE, IDLE enter_leave_map: Dict[str, EnterLeaveVisitor] def __init_subclass__(cls) -> None: """Verify that all defined handlers are valid.""" super().__init_subclass__() for attr, val in cls.__dict__.items(): if attr.startswith("_"): continue attr_kind = attr.split("_", 1) if len(attr_kind) < 2: kind: Optional[str] = None else: attr, kind = attr_kind if attr in ("enter", "leave") and kind: name = snake_to_camel(kind) + "Node" node_cls = getattr(ast, name, None) if ( not node_cls or not isinstance(node_cls, type) or not issubclass(node_cls, Node) ): raise TypeError(f"Invalid AST node kind: {kind}.") def __init__(self) -> None: self.enter_leave_map = {} def get_enter_leave_for_kind(self, kind: str) -> EnterLeaveVisitor: """Given a node kind, return the EnterLeaveVisitor for that kind.""" try: return self.enter_leave_map[kind] except KeyError: enter_fn = getattr(self, f"enter_{kind}", None) if not enter_fn: enter_fn = getattr(self, "enter", None) leave_fn = getattr(self, f"leave_{kind}", None) if not leave_fn: leave_fn = getattr(self, "leave", None) enter_leave = EnterLeaveVisitor(enter_fn, leave_fn) self.enter_leave_map[kind] = enter_leave return enter_leave def get_visit_fn( self, kind: str, is_leaving: bool = False ) -> Optional[Callable[..., Optional[VisitorAction]]]: """Get the visit function for the given node kind and direction. .. deprecated:: 3.2 Please use ``get_enter_leave_for_kind`` instead. Will be removed in v3.3. """ enter_leave = self.get_enter_leave_for_kind(kind) return enter_leave.leave if is_leaving else enter_leave.enter class Stack(NamedTuple): """A stack for the visit function.""" in_array: bool idx: int keys: Tuple[Node, ...] edits: List[Tuple[Union[int, str], Node]] prev: Any # 'Stack' (python/mypy/issues/731) def visit( root: Node, visitor: Visitor, visitor_keys: Optional[VisitorKeyMap] = None ) -> Any: """Visit each node in an AST. :func:`~.visit` will walk through an AST using a depth-first traversal, calling the visitor's enter methods at each node in the traversal, and calling the leave methods after visiting that node and all of its child nodes. By returning different values from the enter and leave methods, the behavior of the visitor can be altered, including skipping over a sub-tree of the AST (by returning False), editing the AST by returning a value or None to remove the value, or to stop the whole traversal by returning :data:`~.BREAK`. When using :func:`~.visit` to edit an AST, the original AST will not be modified, and a new version of the AST with the changes applied will be returned from the visit function. To customize the node attributes to be used for traversal, you can provide a dictionary visitor_keys mapping node kinds to node attributes. """ if not isinstance(root, Node): raise TypeError(f"Not an AST Node: {inspect(root)}.") if not isinstance(visitor, Visitor): raise TypeError(f"Not an AST Visitor: {inspect(visitor)}.") if visitor_keys is None: visitor_keys = QUERY_DOCUMENT_KEYS stack: Any = None in_array = False keys: Tuple[Node, ...] = (root,) idx = -1 edits: List[Any] = [] node: Any = root key: Any = None parent: Any = None path: List[Any] = [] path_append = path.append path_pop = path.pop ancestors: List[Any] = [] ancestors_append = ancestors.append ancestors_pop = ancestors.pop while True: idx += 1 is_leaving = idx == len(keys) is_edited = is_leaving and edits if is_leaving: key = path[-1] if ancestors else None node = parent parent = ancestors_pop() if ancestors else None if is_edited: if in_array: node = list(node) edit_offset = 0 for edit_key, edit_value in edits: array_key = edit_key - edit_offset if edit_value is REMOVE or edit_value is Ellipsis: node.pop(array_key) edit_offset += 1 else: node[array_key] = edit_value node = tuple(node) else: node = copy(node) for edit_key, edit_value in edits: setattr(node, edit_key, edit_value) idx = stack.idx keys = stack.keys edits = stack.edits in_array = stack.in_array stack = stack.prev elif parent: if in_array: key = idx node = parent[key] else: key = keys[idx] node = getattr(parent, key, None) if node is None: continue path_append(key) if isinstance(node, tuple): result = None else: if not isinstance(node, Node): raise TypeError(f"Invalid AST Node: {inspect(node)}.") enter_leave = visitor.get_enter_leave_for_kind(node.kind) visit_fn = enter_leave.leave if is_leaving else enter_leave.enter if visit_fn: result = visit_fn(node, key, parent, path, ancestors) if result is BREAK or result is True: break if result is SKIP or result is False: if not is_leaving: path_pop() continue elif result is not None: edits.append((key, result)) if not is_leaving: if isinstance(result, Node): node = result else: path_pop() continue else: result = None if result is None and is_edited: edits.append((key, node)) if is_leaving: if path: path_pop() else: stack = Stack(in_array, idx, keys, edits, stack) in_array = isinstance(node, tuple) keys = node if in_array else visitor_keys.get(node.kind, ()) # type: ignore idx = -1 edits = [] if parent: ancestors_append(parent) parent = node if not stack: break if edits: return edits[-1][1] return root class ParallelVisitor(Visitor): """A Visitor which delegates to many visitors to run in parallel. Each visitor will be visited for each node before moving on. If a prior visitor edits a node, no following visitors will see that node. """ def __init__(self, visitors: Collection[Visitor]): """Create a new visitor from the given list of parallel visitors.""" super().__init__() self.visitors = visitors self.skipping: List[Any] = [None] * len(visitors) def get_enter_leave_for_kind(self, kind: str) -> EnterLeaveVisitor: """Given a node kind, return the EnterLeaveVisitor for that kind.""" try: return self.enter_leave_map[kind] except KeyError: has_visitor = False enter_list: List[Optional[Callable[..., Optional[VisitorAction]]]] = [] leave_list: List[Optional[Callable[..., Optional[VisitorAction]]]] = [] for visitor in self.visitors: enter, leave = visitor.get_enter_leave_for_kind(kind) if not has_visitor and (enter or leave): has_visitor = True enter_list.append(enter) leave_list.append(leave) if has_visitor: def enter(node: Node, *args: Any) -> Optional[VisitorAction]: skipping = self.skipping for i, fn in enumerate(enter_list): if not skipping[i]: if fn: result = fn(node, *args) if result is SKIP or result is False: skipping[i] = node elif result is BREAK or result is True: skipping[i] = BREAK elif result is not None: return result return None def leave(node: Node, *args: Any) -> Optional[VisitorAction]: skipping = self.skipping for i, fn in enumerate(leave_list): if not skipping[i]: if fn: result = fn(node, *args) if result is BREAK or result is True: skipping[i] = BREAK elif ( result is not None and result is not SKIP and result is not False ): return result elif skipping[i] is node: skipping[i] = None return None else: enter = leave = None enter_leave = EnterLeaveVisitor(enter, leave) self.enter_leave_map[kind] = enter_leave return enter_leave