/ . / CGLutil / pysession
The session package defines class Session . A Session object
may be used to save the state of an object and its sub-objects (e.g.,
object attributes, sequence elements, dictionary items) to a file
object in XML format. A Session object may also be used to
reconstruct a previously saved object from a file object. (Note that
the XML specification requires that there be only one root element
per document, so saving multiple objects to the same file object
may not work properly.)
Session does not save a representation of Python objects; it saves
the Python object types and states, which may be used to reconstruct
the objects. Python objects are divided into four groups:
- primitive data type (string, int, float)
Object type is type(obj).__name__ .
Object state is its value.
- standard container (list, tuple, dictionary)
Object type is type(obj).__name__ .
Object state is the combined states of its contents.
- class instances
Object type is (obj.__class__.__module__, obj.__class__.__name__) .
Object state is obtained in the same way as pickle .
Object reconstruction follows the same procedure as pickle .
(Details and exceptions described below.)
- type instances
Object type is obj.__getfactory__() .
Object state is obj.__getstate__() .
During object reconstruction, the object type is used to
locate a callable object which is invoked with the
object state and is expected to return the reconstructed
object.
(Details and exceptions described below.)
The save procedure is divided into the following phases:
- identify all referenced objects
- remove referenced objects that cannot be saved
- construct map of objects to unique identifiers
- write object types and states into XML to output
The reconstruction procedure is divided into the following phases:
- read in XML tree
- convert nodes into objects
- construct map of unique identifiers to objects
- convert unique identifiers in objects into references
- return root object
Unique Identifiers
The unique identifiers are to handle object references. For example,
if an attribute A of object X is object Y, then there are two options:
- attribute A can be saved as the type and state of object Y, or
- object Y can be saved separately, tagged with a unique
identifier, and attribute A is saved as the unique identifier.
The former approach has an important drawback: it cannot handle objects
that are referenced by more than one object. Session uses the latter
approach. Generating unique identifiers is non-trivial because some
objects may be saved implicitly (e.g., atoms in may be saved as part of
a molecule). For all saved objects, the unique identifier may
simply be the string id(obj) . Implicitly saved objects
must also supply their own factory method (function used to create
the objects) and initialization arguments information (see below).
Class and Type Instances
While primitive data types and standard containers can be handled
by Session with no help from the objects themselves, class and
type instances are more complex. Class instances contain enough
information so that Session can save those which do not require
special processing; however, some class instances may need to do
more things when they are restored (e.g., rebuild a graphical user
interface). Session provides several mechanisms to provide
sufficient control to reconstructed instances:
- Normally, an instance is recreated without calling its
__init__ method (by creating an instance of a dummy class
and then setting its __class__ attribute to the real
class). If an instance has an __getinitargs__ method,
then the return value from the method (which must be a tuple)
is saved as part of the object state and the reconstructed
instance is created by 'apply'ing the class factory method
to the __getinitargs__ tuple.
- Normally, an the __dict__ attribute of an instance is
saved as its state, and the contents of the dictionary is
used to set attributes of the reconstructed object. If an
instance has a __getstate__ method, then the return value
from the method is saved as the state instead. If the
class has a __setstate__ method, then it is invoked with
the saved state to restore the object state.
Type instances contain much less information (accessible via
Python introspection) than class instances:
- They do not contain information about its factory method
(the function used to create the instance).
- They do not necessarily have an
__dict__ attribute, so
it is difficult to identify which objects they reference
and to construct object state automatically.
- They cannot be created without using a factory method.
These differences require that type instances provide additional
methods to supply the necessary information. In keeping with
the class instance interface style, Session uses __getstate__ ,
__setstate__ , and __getinitargs__ methods for type instances.
In addition, Session uses the __getfactory__ method to obtain the
factory information and saves it along with the object state.
For completeness, Session checks for the __getfactory__ method
for class instances as well as type instances.
If an instance does not provide special methods (__getfactory__ ,
__getstate__ , __getinitargs__ , __setstate__ ), Session checks
for registered class/type handlers. These handlers may be registered
using the register method in Session with the appropriate
keyword arguments.
- Identify Objects to Save *
Once the object state has been obtained, either via __dict__ or
__getstate__() , it is used to find other referenced objects.
Objects that do not contain sufficient information.
Functions
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importModule
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importModule ( name )
Import module by name and return leaf module.
Code taken from Python documentation.
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