from jedi import debug from jedi.inference.base_value import ValueSet, \ NO_VALUES from jedi.inference.utils import to_list from jedi.inference.gradual.stub_value import StubModuleValue from jedi.inference.gradual.typeshed import try_to_load_stub_cached from jedi.inference.value.decorator import Decoratee def _stub_to_python_value_set(stub_value, ignore_compiled=False): stub_module_context = stub_value.get_root_context() if not stub_module_context.is_stub(): return ValueSet([stub_value]) decorates = None if isinstance(stub_value, Decoratee): decorates = stub_value._original_value was_instance = stub_value.is_instance() if was_instance: arguments = getattr(stub_value, '_arguments', None) stub_value = stub_value.py__class__() qualified_names = stub_value.get_qualified_names() if qualified_names is None: return NO_VALUES was_bound_method = stub_value.is_bound_method() if was_bound_method: # Infer the object first. We can infer the method later. method_name = qualified_names[-1] qualified_names = qualified_names[:-1] was_instance = True arguments = None values = _infer_from_stub(stub_module_context, qualified_names, ignore_compiled) if was_instance: values = ValueSet.from_sets( c.execute_with_values() if arguments is None else c.execute(arguments) for c in values if c.is_class() ) if was_bound_method: # Now that the instance has been properly created, we can simply get # the method. values = values.py__getattribute__(method_name) if decorates is not None: values = ValueSet(Decoratee(v, decorates) for v in values) return values def _infer_from_stub(stub_module_context, qualified_names, ignore_compiled): from jedi.inference.compiled.mixed import MixedObject stub_module = stub_module_context.get_value() assert isinstance(stub_module, (StubModuleValue, MixedObject)), stub_module_context non_stubs = stub_module.non_stub_value_set if ignore_compiled: non_stubs = non_stubs.filter(lambda c: not c.is_compiled()) for name in qualified_names: non_stubs = non_stubs.py__getattribute__(name) return non_stubs @to_list def _try_stub_to_python_names(names, prefer_stub_to_compiled=False): for name in names: module_context = name.get_root_context() if not module_context.is_stub(): yield name continue if name.api_type == 'module': values = convert_values(name.infer(), ignore_compiled=prefer_stub_to_compiled) if values: for v in values: yield v.name continue else: v = name.get_defining_qualified_value() if v is not None: converted = _stub_to_python_value_set(v, ignore_compiled=prefer_stub_to_compiled) if converted: converted_names = converted.goto(name.get_public_name()) if converted_names: for n in converted_names: if n.get_root_context().is_stub(): # If it's a stub again, it means we're going in # a circle. Probably some imports make it a # stub again. yield name else: yield n continue yield name def _load_stub_module(module): if module.is_stub(): return module return try_to_load_stub_cached( module.inference_state, import_names=module.string_names, python_value_set=ValueSet([module]), parent_module_value=None, sys_path=module.inference_state.get_sys_path(), ) @to_list def _python_to_stub_names(names, fallback_to_python=False): for name in names: module_context = name.get_root_context() if module_context.is_stub(): yield name continue if name.api_type == 'module': found_name = False for n in name.goto(): if n.api_type == 'module': values = convert_values(n.infer(), only_stubs=True) for v in values: yield v.name found_name = True else: for x in _python_to_stub_names([n], fallback_to_python=fallback_to_python): yield x found_name = True if found_name: continue else: v = name.get_defining_qualified_value() if v is not None: converted = to_stub(v) if converted: converted_names = converted.goto(name.get_public_name()) if converted_names: for n in converted_names: yield n continue if fallback_to_python: # This is the part where if we haven't found anything, just return # the stub name. yield name def convert_names(names, only_stubs=False, prefer_stubs=False, prefer_stub_to_compiled=True): if only_stubs and prefer_stubs: raise ValueError("You cannot use both of only_stubs and prefer_stubs.") with debug.increase_indent_cm('convert names'): if only_stubs or prefer_stubs: return _python_to_stub_names(names, fallback_to_python=prefer_stubs) else: return _try_stub_to_python_names( names, prefer_stub_to_compiled=prefer_stub_to_compiled) def convert_values(values, only_stubs=False, prefer_stubs=False, ignore_compiled=True): assert not (only_stubs and prefer_stubs) with debug.increase_indent_cm('convert values'): if only_stubs or prefer_stubs: return ValueSet.from_sets( to_stub(value) or (ValueSet({value}) if prefer_stubs else NO_VALUES) for value in values ) else: return ValueSet.from_sets( _stub_to_python_value_set(stub_value, ignore_compiled=ignore_compiled) or ValueSet({stub_value}) for stub_value in values ) def to_stub(value): if value.is_stub(): return ValueSet([value]) was_instance = value.is_instance() if was_instance: value = value.py__class__() qualified_names = value.get_qualified_names() stub_module = _load_stub_module(value.get_root_context().get_value()) if stub_module is None or qualified_names is None: return NO_VALUES was_bound_method = value.is_bound_method() if was_bound_method: # Infer the object first. We can infer the method later. method_name = qualified_names[-1] qualified_names = qualified_names[:-1] was_instance = True stub_values = ValueSet([stub_module]) for name in qualified_names: stub_values = stub_values.py__getattribute__(name) if was_instance: stub_values = ValueSet.from_sets( c.execute_with_values() for c in stub_values if c.is_class() ) if was_bound_method: # Now that the instance has been properly created, we can simply get # the method. stub_values = stub_values.py__getattribute__(method_name) return stub_values