# orm/identity.py # Copyright (C) 2005-2014 the SQLAlchemy authors and contributors # # This module is part of SQLAlchemy and is released under # the MIT License: http://www.opensource.org/licenses/mit-license.php import weakref from . import attributes class IdentityMap(dict): def __init__(self): self._modified = set() self._wr = weakref.ref(self) def replace(self, state): raise NotImplementedError() def add(self, state): raise NotImplementedError() def update(self, dict): raise NotImplementedError("IdentityMap uses add() to insert data") def clear(self): raise NotImplementedError("IdentityMap uses remove() to remove data") def _manage_incoming_state(self, state): state._instance_dict = self._wr if state.modified: self._modified.add(state) def _manage_removed_state(self, state): del state._instance_dict self._modified.discard(state) def _dirty_states(self): return self._modified def check_modified(self): """return True if any InstanceStates present have been marked as 'modified'. """ return bool(self._modified) def has_key(self, key): return key in self def popitem(self): raise NotImplementedError("IdentityMap uses remove() to remove data") def pop(self, key, *args): raise NotImplementedError("IdentityMap uses remove() to remove data") def setdefault(self, key, default=None): raise NotImplementedError("IdentityMap uses add() to insert data") def copy(self): raise NotImplementedError() def __setitem__(self, key, value): raise NotImplementedError("IdentityMap uses add() to insert data") def __delitem__(self, key): raise NotImplementedError("IdentityMap uses remove() to remove data") class WeakInstanceDict(IdentityMap): def __init__(self): IdentityMap.__init__(self) def __getitem__(self, key): state = dict.__getitem__(self, key) o = state.obj() if o is None: raise KeyError, key return o def __contains__(self, key): try: if dict.__contains__(self, key): state = dict.__getitem__(self, key) o = state.obj() else: return False except KeyError: return False else: return o is not None def contains_state(self, state): return dict.get(self, state.key) is state def replace(self, state): if dict.__contains__(self, state.key): existing = dict.__getitem__(self, state.key) if existing is not state: self._manage_removed_state(existing) else: return dict.__setitem__(self, state.key, state) self._manage_incoming_state(state) def add(self, state): key = state.key # inline of self.__contains__ if dict.__contains__(self, key): try: existing_state = dict.__getitem__(self, key) if existing_state is not state: o = existing_state.obj() if o is not None: raise AssertionError( "A conflicting state is already " "present in the identity map for key %r" % (key, )) else: return except KeyError: pass dict.__setitem__(self, key, state) self._manage_incoming_state(state) def get(self, key, default=None): state = dict.get(self, key, default) if state is default: return default o = state.obj() if o is None: return default return o def _items(self): values = self.all_states() result = [] for state in values: value = state.obj() if value is not None: result.append((state.key, value)) return result def _values(self): values = self.all_states() result = [] for state in values: value = state.obj() if value is not None: result.append(value) return result # Py3K #def items(self): # return iter(self._items()) # #def values(self): # return iter(self._values()) # Py2K items = _items def iteritems(self): return iter(self.items()) values = _values def itervalues(self): return iter(self.values()) # end Py2K def all_states(self): # Py3K # return list(dict.values(self)) # Py2K return dict.values(self) # end Py2K def discard(self, state): st = dict.get(self, state.key, None) if st is state: dict.pop(self, state.key, None) self._manage_removed_state(state) def prune(self): return 0 class StrongInstanceDict(IdentityMap): def all_states(self): return [attributes.instance_state(o) for o in self.itervalues()] def contains_state(self, state): return ( state.key in self and attributes.instance_state(self[state.key]) is state) def replace(self, state): if dict.__contains__(self, state.key): existing = dict.__getitem__(self, state.key) existing = attributes.instance_state(existing) if existing is not state: self._manage_removed_state(existing) else: return dict.__setitem__(self, state.key, state.obj()) self._manage_incoming_state(state) def add(self, state): if state.key in self: if attributes.instance_state(dict.__getitem__(self, state.key)) is not state: raise AssertionError('A conflicting state is already ' 'present in the identity map for key %r' % (state.key, )) else: dict.__setitem__(self, state.key, state.obj()) self._manage_incoming_state(state) def discard(self, state): obj = dict.get(self, state.key, None) if obj is not None: st = attributes.instance_state(obj) if st is state: dict.pop(self, state.key, None) self._manage_removed_state(state) def prune(self): """prune unreferenced, non-dirty states.""" ref_count = len(self) dirty = [s.obj() for s in self.all_states() if s.modified] # work around http://bugs.python.org/issue6149 keepers = weakref.WeakValueDictionary() keepers.update(self) dict.clear(self) dict.update(self, keepers) self.modified = bool(dirty) return ref_count - len(self)