import sys import typing from typing import Any, Optional, Union PyCF_ONLY_AST = ... # type: int _identifier = str class AST: _attributes = ... # type: typing.Tuple[str, ...] _fields = ... # type: typing.Tuple[str, ...] def __init__(self, *args: Any, **kwargs: Any) -> None: ... class mod(AST): ... class Module(mod): body = ... # type: typing.List[stmt] if sys.version_info >= (3, 7): docstring: Optional[str] class Interactive(mod): body = ... # type: typing.List[stmt] class Expression(mod): body = ... # type: expr class Suite(mod): body = ... # type: typing.List[stmt] class stmt(AST): lineno = ... # type: int col_offset = ... # type: int class FunctionDef(stmt): name = ... # type: _identifier args = ... # type: arguments body = ... # type: typing.List[stmt] decorator_list = ... # type: typing.List[expr] returns = ... # type: Optional[expr] if sys.version_info >= (3, 7): docstring: Optional[str] class AsyncFunctionDef(stmt): name = ... # type: _identifier args = ... # type: arguments body = ... # type: typing.List[stmt] decorator_list = ... # type: typing.List[expr] returns = ... # type: Optional[expr] if sys.version_info >= (3, 7): docstring: Optional[str] class ClassDef(stmt): name = ... # type: _identifier bases = ... # type: typing.List[expr] keywords = ... # type: typing.List[keyword] body = ... # type: typing.List[stmt] decorator_list = ... # type: typing.List[expr] if sys.version_info >= (3, 7): docstring: Optional[str] class Return(stmt): value = ... # type: Optional[expr] class Delete(stmt): targets = ... # type: typing.List[expr] class Assign(stmt): targets = ... # type: typing.List[expr] value = ... # type: expr class AugAssign(stmt): target = ... # type: expr op = ... # type: operator value = ... # type: expr if sys.version_info >= (3, 6): class AnnAssign(stmt): target = ... # type: expr annotation = ... # type: expr value = ... # type: Optional[expr] simple = ... # type: int class For(stmt): target = ... # type: expr iter = ... # type: expr body = ... # type: typing.List[stmt] orelse = ... # type: typing.List[stmt] class AsyncFor(stmt): target = ... # type: expr iter = ... # type: expr body = ... # type: typing.List[stmt] orelse = ... # type: typing.List[stmt] class While(stmt): test = ... # type: expr body = ... # type: typing.List[stmt] orelse = ... # type: typing.List[stmt] class If(stmt): test = ... # type: expr body = ... # type: typing.List[stmt] orelse = ... # type: typing.List[stmt] class With(stmt): items = ... # type: typing.List[withitem] body = ... # type: typing.List[stmt] class AsyncWith(stmt): items = ... # type: typing.List[withitem] body = ... # type: typing.List[stmt] class Raise(stmt): exc = ... # type: Optional[expr] cause = ... # type: Optional[expr] class Try(stmt): body = ... # type: typing.List[stmt] handlers = ... # type: typing.List[ExceptHandler] orelse = ... # type: typing.List[stmt] finalbody = ... # type: typing.List[stmt] class Assert(stmt): test = ... # type: expr msg = ... # type: Optional[expr] class Import(stmt): names = ... # type: typing.List[alias] class ImportFrom(stmt): module = ... # type: Optional[_identifier] names = ... # type: typing.List[alias] level = ... # type: Optional[int] class Global(stmt): names = ... # type: typing.List[_identifier] class Nonlocal(stmt): names = ... # type: typing.List[_identifier] class Expr(stmt): value = ... # type: expr class Pass(stmt): ... class Break(stmt): ... class Continue(stmt): ... class slice(AST): ... _slice = slice # this lets us type the variable named 'slice' below class Slice(slice): lower = ... # type: Optional[expr] upper = ... # type: Optional[expr] step = ... # type: Optional[expr] class ExtSlice(slice): dims = ... # type: typing.List[slice] class Index(slice): value = ... # type: expr class expr(AST): lineno = ... # type: int col_offset = ... # type: int class BoolOp(expr): op = ... # type: boolop values = ... # type: typing.List[expr] class BinOp(expr): left = ... # type: expr op = ... # type: operator right = ... # type: expr class UnaryOp(expr): op = ... # type: unaryop operand = ... # type: expr class Lambda(expr): args = ... # type: arguments body = ... # type: expr class IfExp(expr): test = ... # type: expr body = ... # type: expr orelse = ... # type: expr class Dict(expr): keys = ... # type: typing.List[expr] values = ... # type: typing.List[expr] class Set(expr): elts = ... # type: typing.List[expr] class ListComp(expr): elt = ... # type: expr generators = ... # type: typing.List[comprehension] class SetComp(expr): elt = ... # type: expr generators = ... # type: typing.List[comprehension] class DictComp(expr): key = ... # type: expr value = ... # type: expr generators = ... # type: typing.List[comprehension] class GeneratorExp(expr): elt = ... # type: expr generators = ... # type: typing.List[comprehension] class Await(expr): value = ... # type: expr class Yield(expr): value = ... # type: Optional[expr] class YieldFrom(expr): value = ... # type: expr class Compare(expr): left = ... # type: expr ops = ... # type: typing.List[cmpop] comparators = ... # type: typing.List[expr] class Call(expr): func = ... # type: expr args = ... # type: typing.List[expr] keywords = ... # type: typing.List[keyword] class Num(expr): n = ... # type: Union[int, float] class Str(expr): s = ... # type: str if sys.version_info >= (3, 6): class FormattedValue(expr): value = ... # type: expr conversion = ... # type: Optional[int] format_spec = ... # type: Optional[expr] class JoinedStr(expr): values = ... # type: typing.List[expr] class Bytes(expr): s = ... # type: bytes class NameConstant(expr): value = ... # type: Any class Ellipsis(expr): ... class Attribute(expr): value = ... # type: expr attr = ... # type: _identifier ctx = ... # type: expr_context class Subscript(expr): value = ... # type: expr slice = ... # type: _slice ctx = ... # type: expr_context class Starred(expr): value = ... # type: expr ctx = ... # type: expr_context class Name(expr): id = ... # type: _identifier ctx = ... # type: expr_context class List(expr): elts = ... # type: typing.List[expr] ctx = ... # type: expr_context class Tuple(expr): elts = ... # type: typing.List[expr] ctx = ... # type: expr_context class expr_context(AST): ... class AugLoad(expr_context): ... class AugStore(expr_context): ... class Del(expr_context): ... class Load(expr_context): ... class Param(expr_context): ... class Store(expr_context): ... class boolop(AST): ... class And(boolop): ... class Or(boolop): ... class operator(AST): ... class Add(operator): ... class BitAnd(operator): ... class BitOr(operator): ... class BitXor(operator): ... class Div(operator): ... class FloorDiv(operator): ... class LShift(operator): ... class Mod(operator): ... class Mult(operator): ... class MatMult(operator): ... class Pow(operator): ... class RShift(operator): ... class Sub(operator): ... class unaryop(AST): ... class Invert(unaryop): ... class Not(unaryop): ... class UAdd(unaryop): ... class USub(unaryop): ... class cmpop(AST): ... class Eq(cmpop): ... class Gt(cmpop): ... class GtE(cmpop): ... class In(cmpop): ... class Is(cmpop): ... class IsNot(cmpop): ... class Lt(cmpop): ... class LtE(cmpop): ... class NotEq(cmpop): ... class NotIn(cmpop): ... class comprehension(AST): target = ... # type: expr iter = ... # type: expr ifs = ... # type: typing.List[expr] if sys.version_info >= (3, 6): is_async = ... # type: int class ExceptHandler(AST): type = ... # type: Optional[expr] name = ... # type: Optional[_identifier] body = ... # type: typing.List[stmt] lineno = ... # type: int col_offset = ... # type: int class arguments(AST): args = ... # type: typing.List[arg] vararg = ... # type: Optional[arg] kwonlyargs = ... # type: typing.List[arg] kw_defaults = ... # type: typing.List[expr] kwarg = ... # type: Optional[arg] defaults = ... # type: typing.List[expr] class arg(AST): arg = ... # type: _identifier annotation = ... # type: Optional[expr] lineno = ... # type: int col_offset = ... # type: int class keyword(AST): arg = ... # type: Optional[_identifier] value = ... # type: expr class alias(AST): name = ... # type: _identifier asname = ... # type: Optional[_identifier] class withitem(AST): context_expr = ... # type: expr optional_vars = ... # type: Optional[expr]