Mercurial > libervia-backend
view libervia/frontends/quick_frontend/quick_widgets.py @ 4229:dd9bc7d791d7
core (constants): use `bool_type`:
Using `bool` for type hint in `Const.bool_const` if conflicting with `Const.bool` method.
To avoid this, `bool_type` is used as an alias to `bool`.
author | Goffi <goffi@goffi.org> |
---|---|
date | Sat, 06 Apr 2024 12:14:10 +0200 |
parents | 26b7ed2817da |
children | 0d7bb4df2343 |
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#!/usr/bin/env python3 # helper class for making a SAT frontend # Copyright (C) 2009-2021 Jérôme Poisson (goffi@goffi.org) # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Affero General Public License for more details. # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. from libervia.backend.core.log import getLogger log = getLogger(__name__) from libervia.backend.core import exceptions from libervia.frontends.quick_frontend.constants import Const as C classes_map = {} try: # FIXME: to be removed when an acceptable solution is here str("") # XXX: unicode doesn't exist in pyjamas except ( TypeError, AttributeError, ): # Error raised is not the same depending on pyjsbuild options str = str def register(base_cls, child_cls=None): """Register a child class to use by default when a base class is needed @param base_cls: "Quick..." base class (like QuickChat or QuickContact), must inherit from QuickWidget @param child_cls: inherited class to use when Quick... class is requested, must inherit from base_cls. Can be None if it's the base_cls itself which register """ # FIXME: we use base_cls.__name__ instead of base_cls directly because pyjamas because # in the second case classes_map[base_cls.__name__] = child_cls class WidgetAlreadyExistsError(Exception): pass class QuickWidgetsManager(object): """This class is used to manage all the widgets of a frontend A widget can be a window, a graphical thing, or someting else depending of the frontend""" def __init__(self, host): self.host = host self._widgets = {} def __iter__(self): """Iterate throught all widgets""" for widget_map in self._widgets.values(): for widget_instances in widget_map.values(): for widget in widget_instances: yield widget def get_real_class(self, class_): """Return class registered for given class_ @param class_: subclass of QuickWidget @return: class actually used to create widget """ try: # FIXME: we use base_cls.__name__ instead of base_cls directly because pyjamas bugs # in the second case cls = classes_map[class_.__name__] except KeyError: cls = class_ if cls is None: raise exceptions.InternalError( "There is not class registered for {}".format(class_) ) return cls def get_widget_instances(self, widget): """Get all instance of a widget This is a helper method which call get_widgets @param widget(QuickWidget): retrieve instances of this widget @return: iterator on widgets """ return self.get_widgets(widget.__class__, widget.target, widget.profiles) def get_widgets(self, class_, target=None, profiles=None, with_duplicates=True): """Get all subclassed widgets instances @param class_: subclass of QuickWidget, same parameter as used in [get_or_create_widget] @param target: if not None, construct a hash with this target and filter corresponding widgets recreated widgets are handled @param profiles(iterable, None): if not None, filter on instances linked to these profiles @param with_duplicates(bool): if False, only first widget with a given hash is returned @return: iterator on widgets """ class_ = self.get_real_class(class_) try: widgets_map = self._widgets[class_.__name__] except KeyError: return else: if target is not None: filter_hash = str(class_.get_widget_hash(target, profiles)) else: filter_hash = None if filter_hash is not None: for widget in widgets_map.get(filter_hash, []): yield widget if not with_duplicates: return else: for widget_instances in widgets_map.values(): for widget in widget_instances: yield widget if not with_duplicates: # widgets are set by hashes, so if don't want duplicates # we only return the first widget of the list break def get_widget(self, class_, target=None, profiles=None): """Get a widget without creating it if it doesn't exist. if several instances of widgets with this hash exist, the first one is returned @param class_: subclass of QuickWidget, same parameter as used in [get_or_create_widget] @param target: target depending of the widget, usually a JID instance @param profiles (unicode, iterable[unicode], None): profile(s) to use (may or may not be used, depending of the widget class) @return: a class_ instance or None if the widget doesn't exist """ assert (target is not None) or (profiles is not None) if profiles is not None and isinstance(profiles, str): profiles = [profiles] class_ = self.get_real_class(class_) hash_ = class_.get_widget_hash(target, profiles) try: return self._widgets[class_.__name__][hash_][0] except KeyError: return None def get_or_create_widget(self, class_, target, *args, **kwargs): """Get an existing widget or create a new one when necessary If the widget is new, self.host.new_widget will be called with it. @param class_(class): class of the widget to create @param target: target depending of the widget, usually a JID instance @param args(list): optional args to create a new instance of class_ @param kwargs(dict): optional kwargs to create a new instance of class_ if 'profile' key is present, it will be popped and put in 'profiles' if there is neither 'profile' nor 'profiles', None will be used for 'profiles' if 'on_new_widget' is present it can have the following values: C.WIDGET_NEW [default]: self.host.new_widget will be called on widget creation [callable]: this method will be called instead of self.host.new_widget None: do nothing if 'on_existing_widget' is present it can have the following values: C.WIDGET_KEEP [default]: return the existing widget C.WIDGET_RAISE: raise WidgetAlreadyExistsError C.WIDGET_RECREATE: create a new widget if the existing widget has a "recreate_args" method, it will be called with args list and kwargs dict so the values can be completed to create correctly the new instance [callable]: this method will be called with existing widget as argument, the widget to use must be returned if 'force_hash' is present, the hash given in value will be used instead of the one returned by class_.get_widget_hash other keys will be used to instanciate class_ if the case happen (e.g. if type_ is present and class_ is a QuickChat subclass, it will be used to create a new QuickChat instance). @return: a class_ instance, either new or already existing """ cls = self.get_real_class(class_) ## arguments management ## _args = [self.host, target] + list( args ) or [] # FIXME: check if it's really necessary to use optional args _kwargs = kwargs or {} if "profiles" in _kwargs and "profile" in _kwargs: raise ValueError( "You can't have 'profile' and 'profiles' keys at the same time" ) try: _kwargs["profiles"] = [_kwargs.pop("profile")] except KeyError: if not "profiles" in _kwargs: _kwargs["profiles"] = None # on_new_widget tells what to do for the new widget creation try: on_new_widget = _kwargs.pop("on_new_widget") except KeyError: on_new_widget = C.WIDGET_NEW # on_existing_widget tells what to do when the widget already exists try: on_existing_widget = _kwargs.pop("on_existing_widget") except KeyError: on_existing_widget = C.WIDGET_KEEP ## we get the hash ## try: hash_ = _kwargs.pop("force_hash") except KeyError: hash_ = cls.get_widget_hash(target, _kwargs["profiles"]) ## widget creation or retrieval ## widgets_map = self._widgets.setdefault( cls.__name__, {} ) # we sorts widgets by classes if not cls.SINGLE: widget = None # if the class is not SINGLE, we always create a new widget else: try: widget = widgets_map[hash_][0] except KeyError: widget = None else: widget.add_target(target) if widget is None: # we need to create a new widget log.debug(f"Creating new widget for target {target} {cls}") widget = cls(*_args, **_kwargs) widgets_map.setdefault(hash_, []).append(widget) self.host.call_listeners("widgetNew", widget) if on_new_widget == C.WIDGET_NEW: self.host.new_widget(widget) elif callable(on_new_widget): on_new_widget(widget) else: assert on_new_widget is None else: # the widget already exists if on_existing_widget == C.WIDGET_KEEP: pass elif on_existing_widget == C.WIDGET_RAISE: raise WidgetAlreadyExistsError(hash_) elif on_existing_widget == C.WIDGET_RECREATE: try: recreate_args = widget.recreate_args except AttributeError: pass else: recreate_args(_args, _kwargs) widget = cls(*_args, **_kwargs) widgets_map[hash_].append(widget) log.debug("widget <{wid}> already exists, a new one has been recreated" .format(wid=widget)) elif callable(on_existing_widget): widget = on_existing_widget(widget) if widget is None: raise exceptions.InternalError( "on_existing_widget method must return the widget to use") if widget not in widgets_map[hash_]: log.debug( "the widget returned by on_existing_widget is new, adding it") widgets_map[hash_].append(widget) else: raise exceptions.InternalError( "Unexpected on_existing_widget value ({})".format(on_existing_widget)) return widget def delete_widget(self, widget_to_delete, *args, **kwargs): """Delete a widget instance this method must be called by frontends when a widget is deleted widget's on_delete method will be called before deletion, and deletion will be stopped if it returns False. @param widget_to_delete(QuickWidget): widget which need to deleted @param *args: extra arguments to pass to on_delete @param *kwargs: extra keywords arguments to pass to on_delete the extra arguments are not used by QuickFrontend, it's is up to the frontend to use them or not. following extra arguments are well known: - "all_instances" can be used as kwarg, if it evaluate to True, all instances of the widget will be deleted (if on_delete is not returning False for any of the instance). This arguments is not sent to on_delete methods. - "explicit_close" is used when the deletion is requested by the user or a leave signal, "all_instances" is usually set at the same time. """ # TODO: all_instances must be independante kwargs, this is not possible with Python 2 # but will be with Python 3 all_instances = kwargs.get('all_instances', False) if all_instances: for w in self.get_widget_instances(widget_to_delete): if w.on_delete(**kwargs) == False: log.debug( f"Deletion of {widget_to_delete} cancelled by widget itself") return else: if widget_to_delete.on_delete(**kwargs) == False: log.debug(f"Deletion of {widget_to_delete} cancelled by widget itself") return if self.host.selected_widget == widget_to_delete: self.host.selected_widget = None class_ = self.get_real_class(widget_to_delete.__class__) try: widgets_map = self._widgets[class_.__name__] except KeyError: log.error("no widgets_map found for class {cls}".format(cls=class_)) return widget_hash = str(class_.get_widget_hash(widget_to_delete.target, widget_to_delete.profiles)) try: widget_instances = widgets_map[widget_hash] except KeyError: log.error(f"no instance of {class_.__name__} found with hash {widget_hash!r}") return if all_instances: widget_instances.clear() else: try: widget_instances.remove(widget_to_delete) except ValueError: log.error("widget_to_delete not found in widget instances") return log.debug("widget {} deleted".format(widget_to_delete)) if not widget_instances: # all instances with this hash have been deleted # we remove the hash itself del widgets_map[widget_hash] log.debug("All instances of {cls} with hash {widget_hash!r} have been deleted" .format(cls=class_, widget_hash=widget_hash)) self.host.call_listeners("widgetDeleted", widget_to_delete) class QuickWidget(object): """generic widget base""" # FIXME: sometime a single target is used, sometimes several ones # This should be sorted out in the same way as for profiles: a single # target should be possible when appropriate attribute is set. # methods using target(s) and hash should be fixed accordingly SINGLE = True # if True, there can be only one widget per target(s) PROFILES_MULTIPLE = False # If True, this widget can handle several profiles at once PROFILES_ALLOW_NONE = False # If True, this widget can be used without profile def __init__(self, host, target, profiles=None): """ @param host: %(doc_host)s @param target: target specific for this widget class @param profiles: can be either: - (unicode): used when widget class manage a unique profile - (iterable): some widget class can manage several profiles, several at once can be specified here - None: no profile is managed by this widget class (rare) @raise: ValueError when (iterable) or None is given to profiles for a widget class which manage one unique profile. """ self.host = host self.targets = set() self.add_target(target) self.profiles = set() self._sync = True if isinstance(profiles, str): self.add_profile(profiles) elif profiles is None: if not self.PROFILES_ALLOW_NONE: raise ValueError("profiles can't have a value of None") else: for profile in profiles: self.add_profile(profile) if not self.profiles: raise ValueError("no profile found, use None for no profile classes") @property def profile(self): assert ( len(self.profiles) == 1 and not self.PROFILES_MULTIPLE and not self.PROFILES_ALLOW_NONE ) return list(self.profiles)[0] @property def target(self): """Return main target A random target is returned when several targets are available """ return next(iter(self.targets)) @property def widget_hash(self): """Return quick widget hash""" return self.get_widget_hash(self.target, self.profiles) # synchronisation state @property def sync(self): return self._sync @sync.setter def sync(self, state): """state of synchronisation with backend @param state(bool): True when backend is synchronised False is set by core True must be set by the widget when resynchronisation is finished """ self._sync = state def resync(self): """Method called when backend can be resynchronized The widget has to set self.sync itself when the synchronisation is finished """ pass # target/profile def add_target(self, target): """Add a target if it doesn't already exists @param target: target to add """ self.targets.add(target) def add_profile(self, profile): """Add a profile is if doesn't already exists @param profile: profile to add """ if self.profiles and not self.PROFILES_MULTIPLE: raise ValueError("multiple profiles are not allowed") self.profiles.add(profile) # widget identitication @staticmethod def get_widget_hash(target, profiles): """Return the hash associated with this target for this widget class some widget classes can manage several target on the same instance (e.g.: a chat widget with multiple resources on the same bare jid), this method allow to return a hash associated to one or several targets to retrieve the good instance. For example, a widget managing JID targets, and all resource of the same bare jid would return the bare jid as hash. @param target: target to check @param profiles: profile(s) associated to target, see __init__ docstring @return: a hash (can correspond to one or many targets or profiles, depending of widget class) """ return str(target) # by defaut, there is one hash for one target # widget life events def on_delete(self, *args, **kwargs): """Called when a widget is being deleted @return (boot, None): False to cancel deletion all other value continue deletion """ return True def on_selected(self): """Called when host.selected_widget is this instance""" pass