--- a/doc/book/en/B0012-schema-definition.en.txt Thu Mar 26 09:09:58 2009 +0100
+++ b/doc/book/en/B0012-schema-definition.en.txt Thu Mar 26 11:43:06 2009 +0100
@@ -3,10 +3,12 @@
Entity type definition
----------------------
-An entity type is defined by a Python class which inherits `EntityType`. The
-class name correponds to the type name. Then the content of the class contains
-the description of attributes and relations for the defined entity type,
-for example ::
+An entity type is defined by a Python class which inherits from `EntityType`.
+The class definition contains the description of attributes and relations
+for the defined entity type.
+The class name corresponds to the entity type name.
+
+For example ::
class Person(EntityType):
"""A person with the properties and the relations necessary for my
@@ -14,15 +16,17 @@
last_name = String(required=True, fulltextindexed=True)
first_name = String(required=True, fulltextindexed=True)
- title = String(vocabulary=('M', 'Mme', 'Mlle'))
+ title = String(vocabulary=('Mr', 'Mrs', 'Miss'))
date_of_birth = Date()
works_for = SubjectRelation('Company', cardinality='?*')
+
* the name of the Python attribute corresponds to the name of the attribute
or the relation in `CubicWeb` application.
-* all built-in types are available : `String`, `Int`, `Float`,
- `Boolean`, `Date`, `Datetime`, `Time`, `Byte`.
+* all `CubicWeb` built-in types are available : `String`, `Int`, `Float`,
+ `Boolean`, `Date`, `Datetime`, `Time`, `Byte`; they are and implicitely
+ imported (as well as the special the function "_").
* each entity type has at least the following meta-relations :
@@ -34,21 +38,19 @@
- `created_by` (`EUser`) (which user created the entity)
- - `owned_by` (`EUser`) (who does the entity belongs to, by default the
- creator but not necessary and it could have multiple owners)
+ - `owned_by` (`EUser`) (to whom the entity belongs; by default the
+ creator but not necessary, and it could have multiple owners)
- `is` (`EEType`)
-
-* it is also possible to define relations of type object by using `ObjectRelation`
- instead of `SubjectRelation`
-* the first argument of `SubjectRelation` and `ObjectRelation` gives respectively
+* relations can be defined by using `ObjectRelation` or `SubjectRelation`.
+ The first argument of `SubjectRelation` or `ObjectRelation` gives respectively
the object/subject entity type of the relation. This could be :
* a string corresponding to an entity type
- * a tuple of string correponding to multiple entities types
+ * a tuple of string corresponding to multiple entity types
* special string such as follows :
@@ -62,20 +64,20 @@
* optional properties for attributes and relations :
- - `description` : string describing an attribute or a relation. By default
+ - `description` : a string describing an attribute or a relation. By default
this string will be used in the editing form of the entity, which means
that it is supposed to help the end-user and should be flagged by the
function `_` to be properly internationalized.
- - `constraints` : list of conditions/constraints that the relation needs to
+ - `constraints` : a list of conditions/constraints that the relation has to
satisfy (c.f. `Contraints`_)
- - `cardinality` : two characters string which specify the cardinality of the
+ - `cardinality` : a two character string which specify the cardinality of the
relation. The first character defines the cardinality of the relation on
- the subject, the second on the object of the relation. When a relation
- has multiple possible subjects or objects, the cardinality applies to all
- and not on a one to one basis (so it must be consistent...). The possible
- values are inspired from regular expressions syntax :
+ the subject, and the second on the object. When a relation can have
+ multiple subjects or objects, the cardinality applies to all,
+ not on a one-to-one basis (so it must be consistent...). The possible
+ values are inspired from regular expression syntax :
* `1`: 1..1
* `?`: 0..1
@@ -85,7 +87,7 @@
- `meta` : boolean indicating that the relation is a meta-relation (false by
default)
-* optionnal properties for attributes :
+* optional properties for attributes :
- `required` : boolean indicating if the attribute is required (false by default)
@@ -98,11 +100,11 @@
attribute.
- `default` : default value of the attribute. In case of date types, the values
- which could be used correpond to the RQL keywords `TODAY` and `NOW`.
+ which could be used correspond to the RQL keywords `TODAY` and `NOW`.
- `vocabulary` : specify static possible values of an attribute
-* optionnal properties of type `String` :
+* optional properties of type `String` :
- `fulltextindexed` : boolean indicating if the attribute is part of
the full text index (false by default) (*applicable on the type `Byte`
@@ -113,17 +115,17 @@
- `maxsize` : integer providing the maximum size of the string (no limit by default)
-* optionnal properties for relations :
+* optional properties for relations :
- `composite` : string indicating that the subject (composite == 'subject')
is composed of the objects of the relations. For the opposite case (when
- the object is composed of the subjects of the relation), we just need
- to set 'object' as the value. The composition implies that when the relation
+ the object is composed of the subjects of the relation), we just set
+ 'object' as value. The composition implies that when the relation
is deleted (so when the composite is deleted), the composed are also deleted.
Contraints
``````````
-By default, the available constraints types are :
+By default, the available constraint types are :
* `SizeConstraint` : allows to specify a minimum and/or maximum size on
string (generic case of `maxsize`)
@@ -135,7 +137,7 @@
* `StaticVocabularyConstraint` : identical to "vocabulary=(...)"
-* `RQLConstraint` : allows to specify a RQL query that needs to be satisfied
+* `RQLConstraint` : allows to specify a RQL query that has to be satisfied
by the subject and/or the object of the relation. In this query the variables
`S` and `O` are reserved for the entities subject and object of the
relation.
@@ -143,7 +145,7 @@
* `RQLVocabularyConstraint` : similar to the previous type of constraint except
that it does not express a "strong" constraint, which means it is only used to
restrict the values listed in the drop-down menu of editing form, but it does
- not prevent another entity to be selected
+ not prevent another entity to be selected.
Relation definition
@@ -154,7 +156,7 @@
A relation is defined by a Python class heriting `RelationType`. The name
of the class corresponds to the name of the type. The class then contains
a description of the properties of this type of relation, and could as well
-contains a string for the subject and a string for the object. This allows to create
+contain a string for the subject and a string for the object. This allows to create
new definition of associated relations, (so that the class can have the
definition properties from the relation) for example ::
@@ -174,14 +176,14 @@
table for the relation. This applies to the relation when the cardinality
of subject->relation->object is 0..1 (`?`) or 1..1 (`1`)
-* `symetric` : boolean indication that the relation is symetrical, which
+* `symmetric` : boolean indicating that the relation is symmetrical, which
means `X relation Y` implies `Y relation X`
In the case of simultaneous relations definitions, `subject` and `object`
can both be equal to the value of the first argument of `SubjectRelation`
and `ObjectRelation`.
-When a relation is not inlined and not symetrical, and it does not require
+When a relation is not inlined and not symmetrical, and it does not require
specific permissions, its definition (by using `SubjectRelation` and
`ObjectRelation`) is all we need.