"""MutableMapping that emits events when altered."""
from typing import Mapping, Sequence, Type, Union
from napari.utils.events.containers._dict import _K, _T, TypedMutableMapping
from napari.utils.events.event import EmitterGroup, Event
from napari.utils.events.types import SupportsEvents
[docs]
class EventedDict(TypedMutableMapping[_K, _T]):
"""Mutable dictionary that emits events when altered.
This class is designed to behave exactly like builtin ``dict``, but
will emit events before and after all mutations (addition, removal, and
changing).
Parameters
----------
data : Mapping, optional
Dictionary to initialize the class with.
basetype : type of sequence of types, optional
Type of the element in the dictionary.
Events
------
changing (key: K)
emitted before an item at ``key`` is changed
changed (key: K, old_value: T, value: T)
emitted when item at ``key`` is changed from ``old_value`` to ``value``
adding (key: K)
emitted before an item is added to the dictionary with ``key``
added (key: K, value: T)
emitted after ``value`` was added to the dictionary with ``key``
removing (key: K)
emitted before ``key`` is removed from the dictionary
removed (key: K, value: T)
emitted after ``key`` was removed from the dictionary
updated (key, K, value: T)
emitted after ``value`` of ``key`` was changed. Only implemented by
subclasses to give them an option to trigger some update after ``value``
was changed and this class did not register it. This can be useful if
the ``basetype`` is not an evented object.
"""
events: EmitterGroup
def __init__(
self,
data: Mapping[_K, _T] = None,
basetype: Union[Type[_T], Sequence[Type[_T]]] = (),
) -> None:
_events = {
"changing": None,
"changed": None,
"adding": None,
"added": None,
"removing": None,
"removed": None,
"updated": None,
}
# For inheritance: If the mro already provides an EmitterGroup, add...
if hasattr(self, "events") and isinstance(self.events, EmitterGroup):
self.events.add(**_events)
else:
# otherwise create a new one
self.events = EmitterGroup(source=self, **_events)
super().__init__(data, basetype)
def __setitem__(self, key: _K, value: _T):
old = self._dict.get(key, None)
if value is old or value == old:
return
if old is None:
self.events.adding(key=key)
super().__setitem__(key, value)
self.events.added(key=key, value=value)
self._connect_child_emitters(value)
else:
self.events.changing(key=key)
super().__setitem__(key, value)
self.events.changed(key=key, old_value=old, value=value)
def __delitem__(self, key: _K):
self.events.removing(key=key)
self._disconnect_child_emitters(self[key])
item = self._dict.pop(key)
self.events.removed(key=key, value=item)
def _reemit_child_event(self, event: Event):
"""An item in the dict emitted an event. Re-emit with key"""
if not hasattr(event, "key"):
event.key = self.key(event.source)
# re-emit with this object's EventEmitter
self.events(event)
def _disconnect_child_emitters(self, child: _T):
"""Disconnect all events from the child from the re-emitter."""
if isinstance(child, SupportsEvents):
child.events.disconnect(self._reemit_child_event)
def _connect_child_emitters(self, child: _T):
"""Connect all events from the child to be re-emitted."""
if isinstance(child, SupportsEvents):
# make sure the event source has been set on the child
if child.events.source is None:
child.events.source = child
child.events.connect(self._reemit_child_event)
[docs]
def key(self, value: _T):
"""Return first instance of value."""
for k, v in self._dict.items():
if v is value or v == value:
return k
return None