from typing import Any, Dict, List, Mapping, Set, Tuple, Union from PyQt5.QtCore import QObject, pyqtProperty, pyqtSignal, pyqtSlot PyqtType = Union[str, type] class _ListItemMeta(type(QObject)): # type: ignore __slots__ = () def __new__(mcs, name: str, bases: Tuple[type], attrs: Dict[str, Any]): def to_pyqt_type(type_) -> PyqtType: "Return an appropriate pyqtProperty type from an annotation." try: if issubclass(type_, (bool, int, float, str, type(None))): return type_ if issubclass(type_, Mapping): return "QVariantMap" return "QVariant" except TypeError: # e.g. None passed return to_pyqt_type(type(type_)) # These special attributes must not be processed like properties special = {"_main_key", "_required_init_values", "_constant"} # These properties won't be settable and will not have a notify signal constant: Set[str] = set(attrs.get("_constant") or set()) # {property_name: (its_pyqt_type, its_default_value)} props: Dict[str, Tuple[PyqtType, Any]] = { name: (to_pyqt_type(attrs.get("__annotations__", {}).get(name)), value) for name, value in attrs.items() if not (name.startswith("__") or callable(value) or name in special) } # Signals for the pyqtProperty notify arguments signals: Dict[str, pyqtSignal] = { f"{name}Changed": pyqtSignal(type_) for name, (type_, _) in props.items() if name not in constant } # pyqtProperty() won't take None, so we make dicts of extra kwargs # to pass for each property pyqt_props_kwargs: Dict[str, Dict[str, Any]] = { name: {"constant": True} if name in constant else {"notify": signals[f"{name}Changed"], "fset": lambda self, value, n=name: ( setattr(self, f"_{n}", value) or # type: ignore getattr(self, f"{n}Changed").emit(value), )} for name in props } # The final pyqtProperty objects pyqt_props: Dict[str, pyqtProperty] = { name: pyqtProperty( type_, fget=lambda self, n=name: getattr(self, f"_{n}"), **pyqt_props_kwargs.get(name, {}), ) for name, (type_, _) in props.items() } attrs = { **attrs, # Original class attributes **signals, **pyqt_props, # Set the internal _properties as slots for memory savings "__slots__": tuple({f"_{prop}" for prop in props} & {"_main_key"}), "_props": props, # The main key is either the attribute _main_key, # or the first defined property "_main_key": attrs.get("_main_key") or list(props.keys())[0] if props else None, "_required_init_values": attrs.get("_required_init_values") or (), "_constant": constant, } return type.__new__(mcs, name, bases, attrs) class ListItem(QObject, metaclass=_ListItemMeta): def __init__(self, *args, **kwargs) -> None: super().__init__() method: str = "%s.__init__()" % type(self).__name__ already_set: Set[str] = set() required: Set[str] = set(self._required_init_values) required_num: int = len(required) + 1 # + 1 = self args_num: int = len(self._props) + 1 from_to: str = str(args_num) if required_num == args_num else \ f"from {required_num} to {args_num}" # Check that not too many positional arguments were passed if len(args) > len(self._props): raise TypeError( f"{method} takes {from_to} positional arguments but " f"{len(args) + 1} were given" ) # Set properties from provided positional arguments for prop, value in zip(self._props, args): setattr(self, f"_{prop}", value) already_set.add(prop) # Set properties from provided keyword arguments for prop, value in kwargs.items(): if prop in already_set: raise TypeError(f"{method} got multiple values for " f"argument {prop!r}") if prop not in self._props: raise TypeError(f"{method} got an unexpected keyword " f"argument {prop!r}") setattr(self, f"_{prop}", value) already_set.add(prop) # Check for required init arguments not provided missing: Set[str] = required - already_set if missing: raise TypeError("%s missing %d required argument: %s" % ( method, len(missing), ", ".join((repr(m) for m in missing)))) # Set default values for properties not provided in arguments for prop in set(self._props) - already_set: setattr(self, f"_{prop}", self._props[prop][1]) def __repr__(self) -> str: prop_strings = ( "\033[%dm%s\033[0m=%r" % ( 1 if p == self.mainKey else 0, # 1 = term bold p, getattr(self, p) ) for p in self._props ) return "%s(%s)" % (type(self).__name__, ", ".join(prop_strings)) @pyqtSlot(result=str) def repr(self) -> str: return self.__repr__() @pyqtProperty("QStringList", constant=True) def roles(self) -> List[str]: return list(self._props.keys()) @pyqtProperty(str, constant=True) def mainKey(self) -> str: return self._main_key