Metadata-Version: 1.0
Name: gocept.reference
Version: 0.1
Summary: Intrinsic references for Zope/ZODB applications.
Home-page: UNKNOWN
Author: gocept gmbh & co. kg
Author-email: developers@gocept.com
License: ZPL 2.1
Description: ============================
        Persistent object references
        ============================
        
        This package provides a reference implementation.
        
        The specific properties of this implementation are:
        
        - intended to be used for intrinsic references
        
        - provides integrity enforcement
        
        - modelled partially after relational `foreign keys`
        
        
        Motivation
        ==========
        
        When developing an application we often find the need to reference objects that
        are managed within the application itself. Those objects are typically `master
        data`-like and are managed centrally within the application.
        
        The reference to those objects is typically intrinsic to the application we
        develop so they should behave like normal Python object references that are
        under the control of our application.
        
        Within the world of Zope and ZODB there are different ways to achieve this. The
        various approaches have different semantics and side effects. Our goal is to
        unify the way of intrinsically referencing objects and to provide an ability to
        switch between different semantics as needed without rewriting application code
        and without the need to migrate persistent data structures (at least from the
        application's point of view).
        
        Model comparison
        ================
        
        Our goal was to determine the advantages and disadvantages of the different
        approaches. We included three general approaches from the world of
        Python/Zope/ZODB and also the standard relational approach to normalisation
        tables.
        
        We used four criteria to describe each solution:
        
        Reference data
        What data is stored to describe the reference.
        
        Reference semantic
        What meaning does the reference have? How can the meaning change?
        
        Integrity
        What might happen to my application if data that is involved in the
        reference might change or become deleted?
        
        Set/Lookup
        What do I (as an application developer) have to do to set a reference or
        look up a referenced object?
        
        
        ======================    =========================================     ===========================================   ========================================    ====================================================
        Property                  Python references                              Weak references                              Key reference                               Relational DBs
        ======================    =========================================     ===========================================   ========================================    ====================================================
        Reference data            OID                                           OID                                           application-specific key                    application-specific (primary key + table name)
        
        Reference semantic        Refers to a specific                          Refers to a spec  ific                        Refers to an object which                   Refers to an object (row) that is associated
        Python object                                 Python object                                 is associated with the saved key            with the primary key at the moment of the lookup.
        at the moment of lookup.
        
        Integrity                 The reference stays valid, however,           The reference might have become stale         The reference might have become             Dependening on the use of `foreign keys`
        the target object might have lost its         and leave the referencing object in an        stale.                                      and the databases implementation of constraints.
        meaning for the application.                  invalid state.                                                                            Can usually be forced to stay valid.
        
        Set/Lookup                Normal Python attribute access.               Use WeakRef-wrapper to store and              Depends on the implementation.              Explicitly store the primary key.
        __call__ to lookup. Might use properties      Might use properties for convenience.       Use JOIN to look up.
        for convenience.
        ======================    =========================================     ===========================================   ========================================    ====================================================
        
        Observations
        ============
        
        - Relational: every object (row) has a canonical place that defines a primary
        key.
        
        The ZODB (like a filesystem) can have multiple hard links to an object.
        Objects are deleted when the last hard link to an object is removed. This
        makes it impossible to use hard links for referencing an object because
        object deletion will not be noticed and the objects will continue to live.
        The ZODB itself does not have a notion of a canonical place where an object
        is defined.
        
        - Relational: When referencing an object we can enforce integrity by declaring
        a foreign key. This is orthogonal to the data stored.
        
        - Relational: As an application-level key is used for identifying the target
        of a reference the application can choose to delete a row and re-add a row
        with the same primary key later. If the integrity is enforced this requires
        support on the database level to temporarily ignore broken foreign keys.
        
        - Normal Python references embed themselves naturally in the application.
        Properties allow hiding implementation on how references are looked
        up/stored.
        
        
        Conclusions / Requirements for the reference implementation
        ===========================================================
        
        - Allow configuration of `foreign key` constraints (none, always,
        end-of-transaction). This selection must be possible to be changed afterwards
        and provide an automatic migration path.
        
        - Use application level keys to refer to an object.
        
        - Use a canonical location and a primary key to store objects and to determine
        whether an object was deleted.
        
        - Distinguish between two use cases when modifying an object's key:
        
        1. The application references the right object but it has the wrong key (as
        the key might have meaning for the application). In this case the object must
        be updated to receive the new, correct key and the references must be updated
        to refer to this new key.
        
        2. The application references the wrong object with the right key. In this
        case the object with the referenced key must be moved away and the key must
        be given to the new object.
        
        
        Implementation notes
        ====================
        
        * Canonical location is determined by location/containment. The primary key for
        a reference is the referenced object's location.
        
        * Constraints are enforced by monitoring containment events.
        
        * The different ways of updating/changing a key's meaning are supported by an
        indirection that enumerates all keys and stores a `reference id` on the
        referencing object instead of the location. The two use cases for changing
        the meaning are reflected to either:
        
        1. associate a new path with an existing reference id
        
        2. associate a new reference id with an existing path
        
Keywords: zodb zope3
Platform: UNKNOWN
