from abc import ABC, abstractmethod import logging logger = logging.getLogger(__name__) class Subscription(object): def __init__(self, subscriptee, name, subscriber): self.subscriptee = subscriptee self.name = name self.subscriber = subscriber def getName(self): return self.name def call(self, *args, **kwargs): self.subscriber(*args, **kwargs) def cancel(self): self.subscriptee.unwire(self) class PropertyManager(ABC): def __init__(self): self.subscribers = [] @abstractmethod def __getitem__(self, item): pass @abstractmethod def __setitem__(self, key, value): pass @abstractmethod def __contains__(self, item): pass @abstractmethod def __dict__(self): pass @abstractmethod def __delitem__(self, key): pass @abstractmethod def keys(self): pass def filter(self, *props): return PropertyFilter(self, *props) def wire(self, callback): sub = Subscription(self, None, callback) self.subscribers.append(sub) return sub def wireProperty(self, name, callback): sub = Subscription(self, name, callback) self.subscribers.append(sub) if name in self: sub.call(self[name]) return sub def unwire(self, sub): try: self.subscribers.remove(sub) except ValueError: # happens when already removed before pass return self def _fireCallbacks(self, name, value): for c in self.subscribers: try: if c.getName() is None: c.call(name, value) elif c.getName() == name: c.call(value) except Exception as e: logger.exception(e) class PropertyLayer(PropertyManager): def __init__(self): super().__init__() self.properties = {} def __contains__(self, name): return name in self.properties def __getitem__(self, name): return self.properties[name] def __setitem__(self, name, value): if name in self.properties and self.properties[name] == value: return self.properties[name] = value self._fireCallbacks(name, value) def __dict__(self): return {k: v for k, v in self.properties.items()} def __delitem__(self, key): return self.properties.__delitem__(key) def keys(self): return self.properties.keys() class PropertyFilter(PropertyManager): def __init__(self, pm: PropertyManager, *props: str): super().__init__() self.pm = pm self.props = props self.pm.wire(self.receiveEvent) def receiveEvent(self, name, value): if name not in self.props: return self._fireCallbacks(name, value) def __getitem__(self, item): if item not in self.props: raise KeyError(item) return self.pm.__getitem__(item) def __setitem__(self, key, value): if key not in self.props: raise KeyError(key) return self.pm.__setitem__(key, value) def __contains__(self, item): if item not in self.props: return False return self.pm.__contains__(item) def __dict__(self): return {k: v for k, v in self.pm.__dict__().items() if k in self.props} def __delitem__(self, key): if key not in self.props: raise KeyError(key) return self.pm.__delitem__(key) def keys(self): return [k for k in self.pm.keys() if k in self.props] class PropertyStack(PropertyManager): def __init__(self): super().__init__() self.layers = [] def addLayer(self, priority: int, pm: PropertyManager): """ highest priority = 0 """ self._fireChanges(self._addLayer(priority, pm)) def _addLayer(self, priority: int, pm: PropertyManager): changes = {} for key in pm.keys(): if key not in self or self[key] != pm[key]: changes[key] = pm[key] def eventClosure(name, value): self.receiveEvent(pm, name, value) sub = pm.wire(eventClosure) self.layers.append({"priority": priority, "props": pm, "sub": sub}) return changes def removeLayer(self, pm: PropertyManager): for layer in self.layers: if layer["props"] == pm: self._fireChanges(self._removeLayer(layer)) def _removeLayer(self, layer): layer["sub"].cancel() self.layers.remove(layer) changes = {} pm = layer["props"] for key in pm.keys(): if key in self: if self[key] != pm[key]: changes[key] = self[key] else: changes[key] = None return changes def replaceLayer(self, priority: int, pm: PropertyManager): layers = [x for x in self.layers if x["priority"] == priority] originalState = self.__dict__() changes = self._removeLayer(layers[0]) if layers else {} changes = {**changes, **self._addLayer(priority, pm)} changes = {k: v for k, v in changes.items() if k not in originalState or originalState[k] != v} self._fireChanges(changes) def _fireChanges(self, changes): for k, v in changes.items(): self._fireCallbacks(k, v) def receiveEvent(self, layer, name, value): if layer != self._getTopLayer(name): return self._fireCallbacks(name, value) def _getTopLayer(self, item): layers = [la["props"] for la in sorted(self.layers, key=lambda l: l["priority"])] for m in layers: if item in m: return m # return top layer by default if layers: return layers[0] def __getitem__(self, item): layer = self._getTopLayer(item) return layer.__getitem__(item) def __setitem__(self, key, value): layer = self._getTopLayer(key) return layer.__setitem__(key, value) def __contains__(self, item): layer = self._getTopLayer(item) if layer: return layer.__contains__(item) return False def __dict__(self): return {k: self.__getitem__(k) for k in self.keys()} def __delitem__(self, key): for layer in self.layers: layer["props"].__delitem__(key) def keys(self): return set([key for l in self.layers for key in l["props"].keys()])