Schema-only behaviors using annotations or attributes¶
Writing behaviors that provide schema fields
Oftentimes, we simply want a behavior to be a reusable collection of form fields. Integrators can then compose their types by combining different schemata. Writing the behavior schema is no different to writing any other schema interface. But how and where do we store the values? By default, plone.behavior provides two alternatives.
Annotations, as provided by the zope.annotation package, are a standard means of storing of key/value pairs on objects. In the default implementation (so-called attribute annotation), the values are stored in a BTree on the object called __annotations__. The raw annotations API involves adapting the object to the IAnnotations interface, which behaves like a dictionary, and storing values under unique keys here. plone.behavior comes with a special type of factory that means you can simply adapt an object to its behavior interface to get an adapter providing this interface, on which you can get and set values, which are eventually stored in annotations.
We’ve already seen an example of this factory:
<plone:behavior title="Reviewers" description="The ability to assign a list of official and/or unofficial reviewers to an item, granting those users special powers." provides=".reviewers.IReviewers" factory="plone.behavior.AnnotationStorage" marker=".reviewers.IReviewersMarkere" />
Here, plone.behavior.AnnotationStorage is a behavior factory that can be used by any behavior with an interface that consists entirely of zope.schema fields. It simply stores those items in object annotations, saving you the trouble of writing your own annotation storage adapter. If you adapt an object for which the behavior is enabled to the behavior interface, you will be able to read and write values off the resultant adapter as normal.
This approach is convenient, but there is another approach that is even more convenient, and, contrary to what you may think, may be more efficient: simply store the attributes of the schema interface directly on the content object.
As an example, here’s the standard IRelatedItems behavior from plone.app.dexerity:
<plone:behavior title="Related items" description="Adds the ability to assign related items" provides=".related.IRelatedItems" for="plone.dexterity.interfaces.IDexterityContent" />
The IRelatedItems schema looks like this:
from plone.autoform.interfaces import IFormFieldProvider from plone.autoform.directives import form from plone.formwidget.contenttree import ObjPathSourceBinder from plone.supermodel import model from z3c.relationfield.schema import RelationChoice, from z3c.relationfield.schema import RelationList from zope.interface import provider @provider(IFormFieldProvider) class IRelatedItems(model.Schema): """Behavior interface to make a type support related items. """ form.fieldset('categorization', label=u"Categorization", fields=['relatedItems']) relatedItems = RelationList( title=u"Related Items", default=, value_type=RelationChoice(title=u"Related", source=ObjPathSourceBinder()), required=False, )
This is a standard schema using plone.autoform.directives. However, notice the lack of a behavior factory. This is a directly provided “marker” interface, except that it has attributes, and so it is not actually a marker interface. The result is that the relatedItems attribute will be stored directly onto a content object when first set (usually in the add form).
This approach has a few advantages:
There is no need to write or use a separate factory, so it is a little easier to use.
The attribute is available on the content object directly, so you can write context/relatedItems in a TAL expression, for example. This does require that it has been set at least once, though! If the schema is used in the type’s add form, that will normally suffice, but old instances of the same type may not have the attribute and could raise an AttributeError.
If the value is going to be used frequently, and especially if it is read when viewing the content object, storing it in an attribute is more efficient than storing it in an annotation. Background: This is because the __annotations__ BTree is a separate persistent object which has to be loaded into memory, and may push something else out of the ZODB cache.
The possible disadvantages are:
The attribute name may collide with another attribute on the object, either from its class, its base schema, or another behavior. Whether this is a problem in practice depends largely on whether the name is likely to be unique. In most cases, it will probably be sufficiently unique.
If the attribute stores a large value, it will increase memory usage, as it will be loaded into memory each time the object is fetched from the ZODB. However, you should use BLOBs to store large values and BTrees to store many values anyway. Loading an object with a BLOB or BTree does not mean loading the entire data, so the memory overhead does not occur unless the whole BLOB or BTree is actually used.
“The moral of this story? BTrees do not always make things more efficient!” ~ Laurence Rowe