| from typing import Optional, Union, Any, Tuple, Iterable |
| from typing_extensions import Final |
| |
| from mypy.nodes import ( |
| Expression, ComparisonExpr, OpExpr, MemberExpr, UnaryExpr, StarExpr, IndexExpr, LITERAL_YES, |
| LITERAL_NO, NameExpr, LITERAL_TYPE, IntExpr, FloatExpr, ComplexExpr, StrExpr, BytesExpr, |
| UnicodeExpr, ListExpr, TupleExpr, SetExpr, DictExpr, CallExpr, SliceExpr, CastExpr, |
| ConditionalExpr, EllipsisExpr, YieldFromExpr, YieldExpr, RevealExpr, SuperExpr, |
| TypeApplication, LambdaExpr, ListComprehension, SetComprehension, DictionaryComprehension, |
| GeneratorExpr, BackquoteExpr, TypeVarExpr, TypeAliasExpr, NamedTupleExpr, EnumCallExpr, |
| TypedDictExpr, NewTypeExpr, PromoteExpr, AwaitExpr, TempNode, AssignmentExpr, ParamSpecExpr |
| ) |
| from mypy.visitor import ExpressionVisitor |
| |
| # [Note Literals and literal_hash] |
| # ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
| # |
| # Mypy uses the term "literal" to refer to any expression built out of |
| # the following: |
| # |
| # * Plain literal expressions, like `1` (integer, float, string, etc.) |
| # |
| # * Compound literal expressions, like `(lit1, lit2)` (list, dict, |
| # set, or tuple) |
| # |
| # * Operator expressions, like `lit1 + lit2` |
| # |
| # * Variable references, like `x` |
| # |
| # * Member references, like `lit.m` |
| # |
| # * Index expressions, like `lit[0]` |
| # |
| # A typical "literal" looks like `x[(i,j+1)].m`. |
| # |
| # An expression that is a literal has a `literal_hash`, with the |
| # following properties. |
| # |
| # * `literal_hash` is a Key: a tuple containing basic data types and |
| # possibly other Keys. So it can be used as a key in a dictionary |
| # that will be compared by value (as opposed to the Node itself, |
| # which is compared by identity). |
| # |
| # * Two expressions have equal `literal_hash`es if and only if they |
| # are syntactically equal expressions. (NB: Actually, we also |
| # identify as equal expressions like `3` and `3.0`; is this a good |
| # idea?) |
| # |
| # * The elements of `literal_hash` that are tuples are exactly the |
| # subexpressions of the original expression (e.g. the base and index |
| # of an index expression, or the operands of an operator expression). |
| |
| |
| def literal(e: Expression) -> int: |
| if isinstance(e, ComparisonExpr): |
| return min(literal(o) for o in e.operands) |
| |
| elif isinstance(e, OpExpr): |
| return min(literal(e.left), literal(e.right)) |
| |
| elif isinstance(e, (MemberExpr, UnaryExpr, StarExpr)): |
| return literal(e.expr) |
| |
| elif isinstance(e, AssignmentExpr): |
| return literal(e.target) |
| |
| elif isinstance(e, IndexExpr): |
| if literal(e.index) == LITERAL_YES: |
| return literal(e.base) |
| else: |
| return LITERAL_NO |
| |
| elif isinstance(e, NameExpr): |
| return LITERAL_TYPE |
| |
| if isinstance(e, (IntExpr, FloatExpr, ComplexExpr, StrExpr, BytesExpr, UnicodeExpr)): |
| return LITERAL_YES |
| |
| if literal_hash(e): |
| return LITERAL_YES |
| |
| return LITERAL_NO |
| |
| |
| Key = Tuple[Any, ...] |
| |
| |
| def subkeys(key: Key) -> Iterable[Key]: |
| return [elt for elt in key if isinstance(elt, tuple)] |
| |
| |
| def literal_hash(e: Expression) -> Optional[Key]: |
| return e.accept(_hasher) |
| |
| |
| class _Hasher(ExpressionVisitor[Optional[Key]]): |
| def visit_int_expr(self, e: IntExpr) -> Key: |
| return ('Literal', e.value) |
| |
| def visit_str_expr(self, e: StrExpr) -> Key: |
| return ('Literal', e.value, e.from_python_3) |
| |
| def visit_bytes_expr(self, e: BytesExpr) -> Key: |
| return ('Literal', e.value) |
| |
| def visit_unicode_expr(self, e: UnicodeExpr) -> Key: |
| return ('Literal', e.value) |
| |
| def visit_float_expr(self, e: FloatExpr) -> Key: |
| return ('Literal', e.value) |
| |
| def visit_complex_expr(self, e: ComplexExpr) -> Key: |
| return ('Literal', e.value) |
| |
| def visit_star_expr(self, e: StarExpr) -> Key: |
| return ('Star', literal_hash(e.expr)) |
| |
| def visit_name_expr(self, e: NameExpr) -> Key: |
| # N.B: We use the node itself as the key, and not the name, |
| # because using the name causes issues when there is shadowing |
| # (for example, in list comprehensions). |
| return ('Var', e.node) |
| |
| def visit_member_expr(self, e: MemberExpr) -> Key: |
| return ('Member', literal_hash(e.expr), e.name) |
| |
| def visit_op_expr(self, e: OpExpr) -> Key: |
| return ('Binary', e.op, literal_hash(e.left), literal_hash(e.right)) |
| |
| def visit_comparison_expr(self, e: ComparisonExpr) -> Key: |
| rest: Any = tuple(e.operators) |
| rest += tuple(literal_hash(o) for o in e.operands) |
| return ('Comparison',) + rest |
| |
| def visit_unary_expr(self, e: UnaryExpr) -> Key: |
| return ('Unary', e.op, literal_hash(e.expr)) |
| |
| def seq_expr(self, e: Union[ListExpr, TupleExpr, SetExpr], name: str) -> Optional[Key]: |
| if all(literal(x) == LITERAL_YES for x in e.items): |
| rest: Any = tuple(literal_hash(x) for x in e.items) |
| return (name,) + rest |
| return None |
| |
| def visit_list_expr(self, e: ListExpr) -> Optional[Key]: |
| return self.seq_expr(e, 'List') |
| |
| def visit_dict_expr(self, e: DictExpr) -> Optional[Key]: |
| if all(a and literal(a) == literal(b) == LITERAL_YES for a, b in e.items): |
| rest: Any = tuple( |
| (literal_hash(a) if a else None, literal_hash(b)) for a, b in e.items |
| ) |
| return ("Dict",) + rest |
| return None |
| |
| def visit_tuple_expr(self, e: TupleExpr) -> Optional[Key]: |
| return self.seq_expr(e, 'Tuple') |
| |
| def visit_set_expr(self, e: SetExpr) -> Optional[Key]: |
| return self.seq_expr(e, 'Set') |
| |
| def visit_index_expr(self, e: IndexExpr) -> Optional[Key]: |
| if literal(e.index) == LITERAL_YES: |
| return ('Index', literal_hash(e.base), literal_hash(e.index)) |
| return None |
| |
| def visit_assignment_expr(self, e: AssignmentExpr) -> Optional[Key]: |
| return literal_hash(e.target) |
| |
| def visit_call_expr(self, e: CallExpr) -> None: |
| return None |
| |
| def visit_slice_expr(self, e: SliceExpr) -> None: |
| return None |
| |
| def visit_cast_expr(self, e: CastExpr) -> None: |
| return None |
| |
| def visit_conditional_expr(self, e: ConditionalExpr) -> None: |
| return None |
| |
| def visit_ellipsis(self, e: EllipsisExpr) -> None: |
| return None |
| |
| def visit_yield_from_expr(self, e: YieldFromExpr) -> None: |
| return None |
| |
| def visit_yield_expr(self, e: YieldExpr) -> None: |
| return None |
| |
| def visit_reveal_expr(self, e: RevealExpr) -> None: |
| return None |
| |
| def visit_super_expr(self, e: SuperExpr) -> None: |
| return None |
| |
| def visit_type_application(self, e: TypeApplication) -> None: |
| return None |
| |
| def visit_lambda_expr(self, e: LambdaExpr) -> None: |
| return None |
| |
| def visit_list_comprehension(self, e: ListComprehension) -> None: |
| return None |
| |
| def visit_set_comprehension(self, e: SetComprehension) -> None: |
| return None |
| |
| def visit_dictionary_comprehension(self, e: DictionaryComprehension) -> None: |
| return None |
| |
| def visit_generator_expr(self, e: GeneratorExpr) -> None: |
| return None |
| |
| def visit_backquote_expr(self, e: BackquoteExpr) -> None: |
| return None |
| |
| def visit_type_var_expr(self, e: TypeVarExpr) -> None: |
| return None |
| |
| def visit_paramspec_expr(self, e: ParamSpecExpr) -> None: |
| return None |
| |
| def visit_type_alias_expr(self, e: TypeAliasExpr) -> None: |
| return None |
| |
| def visit_namedtuple_expr(self, e: NamedTupleExpr) -> None: |
| return None |
| |
| def visit_enum_call_expr(self, e: EnumCallExpr) -> None: |
| return None |
| |
| def visit_typeddict_expr(self, e: TypedDictExpr) -> None: |
| return None |
| |
| def visit_newtype_expr(self, e: NewTypeExpr) -> None: |
| return None |
| |
| def visit__promote_expr(self, e: PromoteExpr) -> None: |
| return None |
| |
| def visit_await_expr(self, e: AwaitExpr) -> None: |
| return None |
| |
| def visit_temp_node(self, e: TempNode) -> None: |
| return None |
| |
| |
| _hasher: Final = _Hasher() |