177 lines
7.7 KiB
Python
177 lines
7.7 KiB
Python
"""Maintain a mapping from mypy concepts to IR/compiled concepts."""
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from typing import Dict, Optional
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from mypy.nodes import FuncDef, TypeInfo, SymbolNode, RefExpr, ArgKind, ARG_STAR, ARG_STAR2, GDEF
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from mypy.types import (
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Instance, Type, CallableType, LiteralType, TypedDictType, UnboundType, PartialType,
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UninhabitedType, Overloaded, UnionType, TypeType, AnyType, NoneTyp, TupleType, TypeVarType,
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get_proper_type
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)
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from mypyc.ir.rtypes import (
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RType, RUnion, RTuple, RInstance, object_rprimitive, dict_rprimitive, tuple_rprimitive,
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none_rprimitive, int_rprimitive, float_rprimitive, str_rprimitive, bool_rprimitive,
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list_rprimitive, set_rprimitive, range_rprimitive, bytes_rprimitive
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)
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from mypyc.ir.func_ir import FuncSignature, FuncDecl, RuntimeArg
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from mypyc.ir.class_ir import ClassIR
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class Mapper:
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"""Keep track of mappings from mypy concepts to IR concepts.
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For example, we keep track of how the mypy TypeInfos of compiled
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classes map to class IR objects.
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This state is shared across all modules being compiled in all
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compilation groups.
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"""
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def __init__(self, group_map: Dict[str, Optional[str]]) -> None:
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self.group_map = group_map
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self.type_to_ir: Dict[TypeInfo, ClassIR] = {}
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self.func_to_decl: Dict[SymbolNode, FuncDecl] = {}
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def type_to_rtype(self, typ: Optional[Type]) -> RType:
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if typ is None:
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return object_rprimitive
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typ = get_proper_type(typ)
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if isinstance(typ, Instance):
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if typ.type.fullname == 'builtins.int':
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return int_rprimitive
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elif typ.type.fullname == 'builtins.float':
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return float_rprimitive
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elif typ.type.fullname == 'builtins.bool':
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return bool_rprimitive
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elif typ.type.fullname == 'builtins.str':
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return str_rprimitive
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elif typ.type.fullname == 'builtins.bytes':
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return bytes_rprimitive
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elif typ.type.fullname == 'builtins.list':
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return list_rprimitive
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# Dict subclasses are at least somewhat common and we
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# specifically support them, so make sure that dict operations
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# get optimized on them.
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elif any(cls.fullname == 'builtins.dict' for cls in typ.type.mro):
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return dict_rprimitive
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elif typ.type.fullname == 'builtins.set':
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return set_rprimitive
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elif typ.type.fullname == 'builtins.tuple':
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return tuple_rprimitive # Varying-length tuple
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elif typ.type.fullname == 'builtins.range':
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return range_rprimitive
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elif typ.type in self.type_to_ir:
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inst = RInstance(self.type_to_ir[typ.type])
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# Treat protocols as Union[protocol, object], so that we can do fast
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# method calls in the cases where the protocol is explicitly inherited from
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# and fall back to generic operations when it isn't.
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if typ.type.is_protocol:
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return RUnion([inst, object_rprimitive])
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else:
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return inst
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else:
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return object_rprimitive
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elif isinstance(typ, TupleType):
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# Use our unboxed tuples for raw tuples but fall back to
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# being boxed for NamedTuple.
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if typ.partial_fallback.type.fullname == 'builtins.tuple':
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return RTuple([self.type_to_rtype(t) for t in typ.items])
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else:
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return tuple_rprimitive
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elif isinstance(typ, CallableType):
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return object_rprimitive
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elif isinstance(typ, NoneTyp):
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return none_rprimitive
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elif isinstance(typ, UnionType):
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return RUnion([self.type_to_rtype(item)
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for item in typ.items])
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elif isinstance(typ, AnyType):
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return object_rprimitive
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elif isinstance(typ, TypeType):
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return object_rprimitive
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elif isinstance(typ, TypeVarType):
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# Erase type variable to upper bound.
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# TODO: Erase to union if object has value restriction?
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return self.type_to_rtype(typ.upper_bound)
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elif isinstance(typ, PartialType):
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assert typ.var.type is not None
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return self.type_to_rtype(typ.var.type)
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elif isinstance(typ, Overloaded):
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return object_rprimitive
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elif isinstance(typ, TypedDictType):
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return dict_rprimitive
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elif isinstance(typ, LiteralType):
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return self.type_to_rtype(typ.fallback)
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elif isinstance(typ, (UninhabitedType, UnboundType)):
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# Sure, whatever!
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return object_rprimitive
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# I think we've covered everything that is supposed to
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# actually show up, so anything else is a bug somewhere.
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assert False, 'unexpected type %s' % type(typ)
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def get_arg_rtype(self, typ: Type, kind: ArgKind) -> RType:
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if kind == ARG_STAR:
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return tuple_rprimitive
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elif kind == ARG_STAR2:
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return dict_rprimitive
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else:
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return self.type_to_rtype(typ)
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def fdef_to_sig(self, fdef: FuncDef) -> FuncSignature:
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if isinstance(fdef.type, CallableType):
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arg_types = [self.get_arg_rtype(typ, kind)
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for typ, kind in zip(fdef.type.arg_types, fdef.type.arg_kinds)]
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arg_pos_onlys = [name is None for name in fdef.type.arg_names]
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ret = self.type_to_rtype(fdef.type.ret_type)
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else:
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# Handle unannotated functions
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arg_types = [object_rprimitive for arg in fdef.arguments]
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arg_pos_onlys = [arg.pos_only for arg in fdef.arguments]
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# We at least know the return type for __init__ methods will be None.
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is_init_method = fdef.name == '__init__' and bool(fdef.info)
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if is_init_method:
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ret = none_rprimitive
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else:
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ret = object_rprimitive
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# mypyc FuncSignatures (unlike mypy types) want to have a name
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# present even when the argument is position only, since it is
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# the sole way that FuncDecl arguments are tracked. This is
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# generally fine except in some cases (like for computing
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# init_sig) we need to produce FuncSignatures from a
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# deserialized FuncDef that lacks arguments. We won't ever
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# need to use those inside of a FuncIR, so we just make up
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# some crap.
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if hasattr(fdef, 'arguments'):
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arg_names = [arg.variable.name for arg in fdef.arguments]
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else:
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arg_names = [name or '' for name in fdef.arg_names]
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args = [RuntimeArg(arg_name, arg_type, arg_kind, arg_pos_only)
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for arg_name, arg_kind, arg_type, arg_pos_only
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in zip(arg_names, fdef.arg_kinds, arg_types, arg_pos_onlys)]
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# We force certain dunder methods to return objects to support letting them
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# return NotImplemented. It also avoids some pointless boxing and unboxing,
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# since tp_richcompare needs an object anyways.
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if fdef.name in ('__eq__', '__ne__', '__lt__', '__gt__', '__le__', '__ge__'):
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ret = object_rprimitive
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return FuncSignature(args, ret)
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def is_native_module(self, module: str) -> bool:
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"""Is the given module one compiled by mypyc?"""
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return module in self.group_map
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def is_native_ref_expr(self, expr: RefExpr) -> bool:
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if expr.node is None:
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return False
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if '.' in expr.node.fullname:
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return self.is_native_module(expr.node.fullname.rpartition('.')[0])
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return True
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def is_native_module_ref_expr(self, expr: RefExpr) -> bool:
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return self.is_native_ref_expr(expr) and expr.kind == GDEF
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