Commit ee545a85 authored by Tim Peters's avatar Tim Peters

Merge rev 29407 from 3.3 branch.

Add more words about __del__ methods.
parent b904b387
......@@ -300,11 +300,11 @@ methods. (Older versions didn't support this at all.) If you write
such a \method{__setattr__} or \method{__delattr__} method, its code
has to set the dirty bit manually.
\item A persistent class should not have an \method{__del__} method.
\item A persistent class should not have a \method{__del__} method.
The database moves objects freely between memory and storage. If an
object has not been used in a while, it may be released and its
contents loaded from storage the next time it is used. Since the
Python interpreter is unaware of persistence, it would call the
Python interpreter is unaware of persistence, it would call
\method{__del__} each time the object was freed.
\end{itemize}
......@@ -407,6 +407,39 @@ the name of the attribute as an argument. If the call returns True,
\class{Persistent} handled the attribute; if not, the user code can
run.
\subsubsection{\method{__del__} methods}
A \method{__del__} method is invoked just before the memory occupied by an
unreferenced Python object is freed. Because ZODB may materialize, and
dematerialize, a given persistent object in memory any number of times,
there isn't a meaningful relationship between when a persistent object's
\method{__del__} method gets invoked and any natural aspect of a
persistent object's life cycle. For example, it is emphatically not the
case that a persistent object's \method{__del__} method gets invoked only
when the object is no longer referenced by other objects in the database.
\method{__del__} is only concerned with reachability from objects in
memory.
Worse, a \method{__del__} method can interfere with the persistence
machinery's goals. For example, some number of persistent objects reside
in a \class{Connection}'s memory cache. At various times, to reduce memory
burden, objects that haven't been referenced recently are removed from the
cache. If a persistent object with a \method{__del___} method is so
removed, and the cache was holding the last memory reference to the object,
the object's \method{__del__} method will be invoked. If the
\method{__del__} method then references any attribute of the object, ZODB
needs to load the object from the database again, in order to satisfy the
attribute reference. This puts the object back into the cache again: such
an object is effectively immortal, occupying space in the memory cache
forever, as every attempt to remove it from cache puts it back into the
cache. In ZODB versions prior to 3.2.2, this could even cause the cache
reduction code to fall into an infinite loop. The infinite loop no longer
occurs, but such objects continue to live in the memory cache forever.
Because \method{__del__} methods don't make good sense for persistent
objects, and can create problems, persistent classes should not define
\method{__del__} methods.
\subsection{Writing Persistent Classes}
Now that we've looked at the basics of programming using the ZODB,
......
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