mypy/indirection.py - third_party/github.com/python/mypy - Git at Google

 from __future__ import annotations

 from typing import Iterable, Set

 import mypy.types as types
 from mypy.types import TypeVisitor
 from mypy.util import split_module_names


 def extract_module_names(type_name: str | None) -> list[str]:
     """Returns the module names of a fully qualified type name."""
     if type_name is not None:
         # Discard the first one, which is just the qualified name of the type
         possible_module_names = split_module_names(type_name)
         return possible_module_names[1:]
     else:
         return []


 class TypeIndirectionVisitor(TypeVisitor[Set[str]]):
     """Returns all module references within a particular type."""

     def __init__(self) -> None:
         self.cache: dict[types.Type, set[str]] = {}
         self.seen_aliases: set[types.TypeAliasType] = set()

     def find_modules(self, typs: Iterable[types.Type]) -> set[str]:
         self.seen_aliases.clear()
         return self._visit(typs)

     def _visit(self, typ_or_typs: types.Type | Iterable[types.Type]) -> set[str]:
         typs = [typ_or_typs] if isinstance(typ_or_typs, types.Type) else typ_or_typs
         output: set[str] = set()
         for typ in typs:
             if isinstance(typ, types.TypeAliasType):
                 # Avoid infinite recursion for recursive type aliases.
                 if typ in self.seen_aliases:
                     continue
                 self.seen_aliases.add(typ)
             if typ in self.cache:
                 modules = self.cache[typ]
             else:
                 modules = typ.accept(self)
                 self.cache[typ] = set(modules)
             output.update(modules)
         return output

     def visit_unbound_type(self, t: types.UnboundType) -> set[str]:
         return self._visit(t.args)

     def visit_any(self, t: types.AnyType) -> set[str]:
         return set()

     def visit_none_type(self, t: types.NoneType) -> set[str]:
         return set()

     def visit_uninhabited_type(self, t: types.UninhabitedType) -> set[str]:
         return set()

     def visit_erased_type(self, t: types.ErasedType) -> set[str]:
         return set()

     def visit_deleted_type(self, t: types.DeletedType) -> set[str]:
         return set()

     def visit_type_var(self, t: types.TypeVarType) -> set[str]:
         return self._visit(t.values) | self._visit(t.upper_bound) | self._visit(t.default)

     def visit_param_spec(self, t: types.ParamSpecType) -> set[str]:
         return self._visit(t.upper_bound) | self._visit(t.default)

     def visit_type_var_tuple(self, t: types.TypeVarTupleType) -> set[str]:
         return self._visit(t.upper_bound) | self._visit(t.default)

     def visit_unpack_type(self, t: types.UnpackType) -> set[str]:
         return t.type.accept(self)

     def visit_parameters(self, t: types.Parameters) -> set[str]:
         return self._visit(t.arg_types)

     def visit_instance(self, t: types.Instance) -> set[str]:
         out = self._visit(t.args)
         if t.type:
             # Uses of a class depend on everything in the MRO,
             # as changes to classes in the MRO can add types to methods,
             # change property types, change the MRO itself, etc.
             for s in t.type.mro:
                 out.update(split_module_names(s.module_name))
             if t.type.metaclass_type is not None:
                 out.update(split_module_names(t.type.metaclass_type.type.module_name))
         return out

     def visit_callable_type(self, t: types.CallableType) -> set[str]:
         out = self._visit(t.arg_types) | self._visit(t.ret_type)
         if t.definition is not None:
             out.update(extract_module_names(t.definition.fullname))
         return out

     def visit_overloaded(self, t: types.Overloaded) -> set[str]:
         return self._visit(t.items) | self._visit(t.fallback)

     def visit_tuple_type(self, t: types.TupleType) -> set[str]:
         return self._visit(t.items) | self._visit(t.partial_fallback)

     def visit_typeddict_type(self, t: types.TypedDictType) -> set[str]:
         return self._visit(t.items.values()) | self._visit(t.fallback)

     def visit_literal_type(self, t: types.LiteralType) -> set[str]:
         return self._visit(t.fallback)

     def visit_union_type(self, t: types.UnionType) -> set[str]:
         return self._visit(t.items)

     def visit_partial_type(self, t: types.PartialType) -> set[str]:
         return set()

     def visit_type_type(self, t: types.TypeType) -> set[str]:
         return self._visit(t.item)

     def visit_type_alias_type(self, t: types.TypeAliasType) -> set[str]:
         return self._visit(types.get_proper_type(t))
	from __future__ import annotations

	from typing import Iterable, Set

	import mypy.types as types
	from mypy.types import TypeVisitor
	from mypy.util import split_module_names


	def extract_module_names(type_name: str \| None) -> list[str]:
	"""Returns the module names of a fully qualified type name."""
	if type_name is not None:
	# Discard the first one, which is just the qualified name of the type
	possible_module_names = split_module_names(type_name)
	return possible_module_names[1:]
	else:
	return []


	class TypeIndirectionVisitor(TypeVisitor[Set[str]]):
	"""Returns all module references within a particular type."""

	def __init__(self) -> None:
	self.cache: dict[types.Type, set[str]] = {}
	self.seen_aliases: set[types.TypeAliasType] = set()

	def find_modules(self, typs: Iterable[types.Type]) -> set[str]:
	self.seen_aliases.clear()
	return self._visit(typs)

	def _visit(self, typ_or_typs: types.Type \| Iterable[types.Type]) -> set[str]:
	typs = [typ_or_typs] if isinstance(typ_or_typs, types.Type) else typ_or_typs
	output: set[str] = set()
	for typ in typs:
	if isinstance(typ, types.TypeAliasType):
	# Avoid infinite recursion for recursive type aliases.
	if typ in self.seen_aliases:
	continue
	self.seen_aliases.add(typ)
	if typ in self.cache:
	modules = self.cache[typ]
	else:
	modules = typ.accept(self)
	self.cache[typ] = set(modules)
	output.update(modules)
	return output

	def visit_unbound_type(self, t: types.UnboundType) -> set[str]:
	return self._visit(t.args)

	def visit_any(self, t: types.AnyType) -> set[str]:
	return set()

	def visit_none_type(self, t: types.NoneType) -> set[str]:
	return set()

	def visit_uninhabited_type(self, t: types.UninhabitedType) -> set[str]:
	return set()

	def visit_erased_type(self, t: types.ErasedType) -> set[str]:
	return set()

	def visit_deleted_type(self, t: types.DeletedType) -> set[str]:
	return set()

	def visit_type_var(self, t: types.TypeVarType) -> set[str]:
	return self._visit(t.values) \| self._visit(t.upper_bound) \| self._visit(t.default)

	def visit_param_spec(self, t: types.ParamSpecType) -> set[str]:
	return self._visit(t.upper_bound) \| self._visit(t.default)

	def visit_type_var_tuple(self, t: types.TypeVarTupleType) -> set[str]:
	return self._visit(t.upper_bound) \| self._visit(t.default)

	def visit_unpack_type(self, t: types.UnpackType) -> set[str]:
	return t.type.accept(self)

	def visit_parameters(self, t: types.Parameters) -> set[str]:
	return self._visit(t.arg_types)

	def visit_instance(self, t: types.Instance) -> set[str]:
	out = self._visit(t.args)
	if t.type:
	# Uses of a class depend on everything in the MRO,
	# as changes to classes in the MRO can add types to methods,
	# change property types, change the MRO itself, etc.
	for s in t.type.mro:
	out.update(split_module_names(s.module_name))
	if t.type.metaclass_type is not None:
	out.update(split_module_names(t.type.metaclass_type.type.module_name))
	return out

	def visit_callable_type(self, t: types.CallableType) -> set[str]:
	out = self._visit(t.arg_types) \| self._visit(t.ret_type)
	if t.definition is not None:
	out.update(extract_module_names(t.definition.fullname))
	return out

	def visit_overloaded(self, t: types.Overloaded) -> set[str]:
	return self._visit(t.items) \| self._visit(t.fallback)

	def visit_tuple_type(self, t: types.TupleType) -> set[str]:
	return self._visit(t.items) \| self._visit(t.partial_fallback)

	def visit_typeddict_type(self, t: types.TypedDictType) -> set[str]:
	return self._visit(t.items.values()) \| self._visit(t.fallback)

	def visit_literal_type(self, t: types.LiteralType) -> set[str]:
	return self._visit(t.fallback)

	def visit_union_type(self, t: types.UnionType) -> set[str]:
	return self._visit(t.items)

	def visit_partial_type(self, t: types.PartialType) -> set[str]:
	return set()

	def visit_type_type(self, t: types.TypeType) -> set[str]:
	return self._visit(t.item)

	def visit_type_alias_type(self, t: types.TypeAliasType) -> set[str]:
	return self._visit(types.get_proper_type(t))